refactor: added `no-cache`

Added web flasher
Initial commit
2026-05-22 01:08:16 +05:00 · 2025-01-07 07:36:57 +03:00 · 2025-01-07 06:50:06 +03:00 · 2025-01-07 06:47:54 +03:00
81 changed files with 336 additions and 26489 deletions
@@ -1,11 +0,0 @@
 version: 2
 updates:
  - package-ecosystem: "npm"
    directory: "/"
    schedule:
      interval: "daily"
  - package-ecosystem: "github-actions"
    directory: "/"
    schedule:
      interval: "daily"
@@ -1,22 +0,0 @@
 name: PlatformIO Dependabot
 on:
  workflow_dispatch: # option to manually trigger the workflow
  schedule:
    # Runs every day at 00:00
    - cron: "0 0 * * *"
 permissions:
  contents: write
  pull-requests: write
 jobs:
  dependabot:
    runs-on: ubuntu-latest
    name: run PlatformIO Dependabot
    steps:
      - name: Checkout
        uses: actions/checkout@v4
      - name: run PlatformIO Dependabot
        uses: peterus/platformio_dependabot@v1.2.0
        with:
          github_token: ${{ secrets.GITHUB_TOKEN }}
@@ -1,20 +0,0 @@
 name: "Close stale issues and PR"
 on:
  schedule:
    - cron: "0 * * * *"
 jobs:
  stale:
    runs-on: ubuntu-latest
    steps:
      - uses: actions/stale@v9
        with:
          stale-issue-message: >
            This issue is stale because it has been open 15 days with no activity. Remove stale label or comment or this will be closed in 5 days.
          close-issue-message: >
            This issue was closed because it has been stalled for 5 days with no activity.
          days-before-stale: 15
          days-before-close: 5
          days-before-pr-stale: -1
          days-before-pr-close: -1
          exempt-issue-labels: "documentation,bug,enhancement"
@@ -1,674 +0,0 @@
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            How to Apply These Terms to Your New Programs
  If you develop a new program, and you want it to be of the greatest
 possible use to the public, the best way to achieve this is to make it
 free software which everyone can redistribute and change under these terms.
  To do so, attach the following notices to the program.  It is safest
 to attach them to the start of each source file to most effectively
 state the exclusion of warranty; and each file should have at least
 the "copyright" line and a pointer to where the full notice is found.
    <one line to give the program's name and a brief idea of what it does.>
    Copyright (C) <year>  <name of author>
    This program is free software: you can redistribute it and/or modify
    it under the terms of the GNU General Public License as published by
    the Free Software Foundation, either version 3 of the License, or
    (at your option) any later version.
    This program is distributed in the hope that it will be useful,
    but WITHOUT ANY WARRANTY; without even the implied warranty of
    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
    GNU General Public License for more details.
    You should have received a copy of the GNU General Public License
    along with this program.  If not, see <https://www.gnu.org/licenses/>.
 Also add information on how to contact you by electronic and paper mail.
  If the program does terminal interaction, make it output a short
 notice like this when it starts in an interactive mode:
    <program>  Copyright (C) <year>  <name of author>
    This program comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
    This is free software, and you are welcome to redistribute it
    under certain conditions; type `show c' for details.
 The hypothetical commands `show w' and `show c' should show the appropriate
 parts of the General Public License.  Of course, your program's commands
 might be different; for a GUI interface, you would use an "about box".
  You should also get your employer (if you work as a programmer) or school,
 if any, to sign a "copyright disclaimer" for the program, if necessary.
 For more information on this, and how to apply and follow the GNU GPL, see
 <https://www.gnu.org/licenses/>.
  The GNU General Public License does not permit incorporating your program
 into proprietary programs.  If your program is a subroutine library, you
 may consider it more useful to permit linking proprietary applications with
 the library.  If this is what you want to do, use the GNU Lesser General
 Public License instead of this License.  But first, please read
 <https://www.gnu.org/licenses/why-not-lgpl.html>.
@@ -1,84 +0,0 @@
 <div align="center">
   ![logo](/assets/logo.svg)
   <br>
   [![GitHub version](https://img.shields.io/github/release/Laxilef/OTGateway.svg?include_prereleases)](https://github.com/Laxilef/OTGateway/releases)
   [![GitHub download](https://img.shields.io/github/downloads/Laxilef/OTGateway/total.svg)](https://github.com/Laxilef/OTGateway/releases/latest)
   [![License](https://img.shields.io/github/license/Laxilef/OTGateway.svg)](LICENSE.txt)
   [![Telegram](https://img.shields.io/badge/Telegram-Channel-33A8E3)](https://t.me/otgateway)
 </div>
 ## Features
 - Hot water temperature control
 - Heating temperature control
 - Smart heating temperature control modes:
   - PID
   - Equithermic curves - adjusts the temperature based on indoor and outdoor temperatures
 - Hysteresis setting (for accurate maintenance of room temperature)
 - Ability to connect an external sensors to monitor outdoor and indoor temperature ([compatible sensors](https://github.com/Laxilef/OTGateway/wiki/Compatibility#temperature-sensors))
 - Emergency mode. If the Wi-Fi connection is lost or the gateway cannot connect to the MQTT server, the mode will turn on. This mode will automatically maintain the set temperature and prevent your home from freezing. In this mode it is also possible to use equithermal curves (weather-compensated control).
 - Automatic error reset (not with all boilers)
 - Diagnostics:
  - The process of heating: works/does not work
  - The process of heating water for hot water: working/not working
  - Display of boiler errors
  - Burner status (flame): on/off
  - Burner modulation level in percent
  - Pressure in the heating system
  - Gateway status (depending on errors and connection status)
  - Boiler connection status via OpenTherm interface
  - The current temperature of the heat carrier (usually the return heat carrier)
  - Set heat carrier temperature (depending on the selected mode)
  - Current hot water temperature
 - [Home Assistant](https://www.home-assistant.io/) integration via MQTT. The ability to create any automation for the boiler!
 ![logo](/assets/ha.png)
 ## Documentation
 All available information and instructions can be found in the wiki:
 * [Home](https://github.com/Laxilef/OTGateway/wiki)
   * [Quick Start](https://github.com/Laxilef/OTGateway/wiki#quick-start)
   * [Build firmware](https://github.com/Laxilef/OTGateway/wiki#build-firmware)
   * [Flash firmware via ESP Flash Download Tool](https://github.com/Laxilef/OTGateway/wiki#flash-firmware-via-esp-flash-download-tool)
   * [Settings](https://github.com/Laxilef/OTGateway/wiki#settings)
      * [External temperature sensors](https://github.com/Laxilef/OTGateway/wiki#external-temperature-sensors)
      * [Reporting indoor/outdoor temperature from any Home Assistant sensor](https://github.com/Laxilef/OTGateway/wiki#reporting-indooroutdoor-temperature-from-any-home-assistant-sensor)
      * [Reporting outdoor temperature from Home Assistant weather integration](https://github.com/Laxilef/OTGateway/wiki#reporting-outdoor-temperature-from-home-assistant-weather-integration)
      * [DHW meter](https://github.com/Laxilef/OTGateway/wiki#dhw-meter)
      * [Advanced Settings](https://github.com/Laxilef/OTGateway/wiki#advanced-settings)
   * [Equitherm mode](https://github.com/Laxilef/OTGateway/wiki#equitherm-mode)
      * [Ratios](https://github.com/Laxilef/OTGateway/wiki#ratios)
      * [Fit coefficients](https://github.com/Laxilef/OTGateway/wiki#fit-coefficients)
   * [PID mode](https://github.com/Laxilef/OTGateway/wiki#pid-mode)
 * [Compatibility](https://github.com/Laxilef/OTGateway/wiki/Compatibility)
   * [Boilers](https://github.com/Laxilef/OTGateway/wiki/Compatibility#boilers)
   * [Boards](https://github.com/Laxilef/OTGateway/wiki/Compatibility#boards)
   * [Temperature sensors](https://github.com/Laxilef/OTGateway/wiki/Compatibility#temperature-sensors)
 * [FAQ & Troubleshooting](https://github.com/Laxilef/OTGateway/wiki/FAQ-&-Troubleshooting)
 * [OT adapters](https://github.com/Laxilef/OTGateway/wiki/OT-adapters)
   * [Adapters on sale](https://github.com/Laxilef/OTGateway/wiki/OT-adapters#adapters-on-sale)
   * [DIY](https://github.com/Laxilef/OTGateway/wiki/OT-adapters#diy)
      * [Files for production](https://github.com/Laxilef/OTGateway/wiki/OT-adapters#files-for-production)
      * [Connection](https://github.com/Laxilef/OTGateway/wiki/OT-adapters#connection)
      * [Leds on board](https://github.com/Laxilef/OTGateway/wiki/OT-adapters#leds-on-board)
 ## Dependencies
 - [ESP8266Scheduler](https://github.com/nrwiersma/ESP8266Scheduler) (for ESP8266)
 - [ESP32Scheduler](https://github.com/laxilef/ESP32Scheduler) (for ESP32)
 - [ArduinoJson](https://github.com/bblanchon/ArduinoJson)
 - [OpenTherm Library](https://github.com/ihormelnyk/opentherm_library)
 - [ArduinoMqttClient](https://github.com/arduino-libraries/ArduinoMqttClient)
 - [ESPTelnet](https://github.com/LennartHennigs/ESPTelnet)
 - [FileData](https://github.com/GyverLibs/FileData)
 - [GyverPID](https://github.com/GyverLibs/GyverPID)
 - [GyverBlinker](https://github.com/GyverLibs/GyverBlinker)
 - [DallasTemperature](https://github.com/milesburton/Arduino-Temperature-Control-Library)
 - [TinyLogger](https://github.com/laxilef/TinyLogger)
 ## Debug
 To display DEBUG messages you must enable debug in settings (switch is disabled by default).
 You can connect via Telnet to read messages. IP: ESP8266 ip, port: 23
@@ -1 +0,0 @@
 /*.priv.*
@@ -1,12 +0,0 @@
 <?xml version="1.0"?>
 <svg xmlns="http://www.w3.org/2000/svg" height="40" aria-label="Import blueprint to My Home Assistant" style="border-radius:24px;width:auto" viewBox="0 0 592 96">
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  </g>
 </svg>
@@ -1,19 +0,0 @@
 # Package for Home Assistant Packages
 # More info: https://www.home-assistant.io/docs/configuration/packages/
 dhw_meter:
  sensor:
    - platform: integration
      unique_id: hot_water_meter
      name: hot_water_meter
      source: sensor.opentherm_dhw_flow_rate
      unit_time: min
      method: left
      round: 2
  homeassistant:
    customize:
      sensor.hot_water_meter:
        friendly_name: "Hot water"
        device_class: "water"
        icon: "mdi:water-pump"
@@ -1,48 +0,0 @@
 # Blueprint for reporting indoor/outdoor temperature to OpenTherm Gateway from any home assistant sensor
 # Updated: 03.09.2024
 blueprint:
  name: Report temp to OpenTherm Gateway
  domain: automation
  author: "Laxilef"
  input:
    source_entity:
      name: Source entity
      description: "Temperature data source"
      selector:
        entity:
          multiple: false
          filter:
            - domain: sensor
              device_class: temperature
    target_entity:
      name: Target entity
      description: "Usually ``number.opentherm_indoor_temp`` or ``number.opentherm_outdoor_temp``"
      default: "number.opentherm_indoor_temp"
      selector:
        entity:
          multiple: false
          filter:
            - domain: number
 mode: single
 variables:
  source_entity: !input source_entity
  target_entity: !input target_entity
 trigger:
  - platform: time_pattern
    seconds: /30
 condition:
  - condition: template
    value_template: "{{ states(source_entity) != 'unavailable' and states(target_entity) != 'unavailable' }}"
 action:
  - if:
      - condition: template
        value_template: "{{ (states(source_entity)|float(0) - states(target_entity)|float(0)) | abs | round(2) >= 0.01 }}"
    then:
      - service: number.set_value
        data:
          value: "{{ states(source_entity)|float(0)|round(2) }}"
        target:
          entity_id: "{{ target_entity }}"
@@ -1,47 +0,0 @@
 # Blueprint for reporting temperature to OpenTherm Gateway from home assistant weather integration
 # Updated: 03.09.2024
 blueprint:
  name: Report temp to OpenTherm Gateway from Weather
  domain: automation
  author: "Laxilef"
  input:
    source_entity:
      name: Source entity
      description: "Temperature data source"
      selector:
        entity:
          multiple: false
          filter:
            - domain: weather
    target_entity:
      name: Target entity
      description: "Usually ``number.opentherm_outdoor_temp``"
      default: "number.opentherm_outdoor_temp"
      selector:
        entity:
          multiple: false
          filter:
            - domain: number
 mode: single
 variables:
  source_entity: !input source_entity
  target_entity: !input target_entity
 trigger:
  - platform: time_pattern
    seconds: /30
 condition:
  - condition: template
    value_template: "{{ states(source_entity) != 'unavailable' and states(target_entity) != 'unavailable' }}"
 action:
  - if:
      - condition: template
        value_template: "{{ (state_attr(source_entity, 'temperature')|float(0) - states(target_entity)|float(0)) | abs | round(2) >= 0.1 }}"
    then:
      - service: number.set_value
        data:
          value: "{{ state_attr(source_entity, 'temperature')|float(0)|round(2) }}"
        target:
          entity_id: "{{ target_entity }}"
@@ -1,17 +0,0 @@
 <svg xmlns="http://www.w3.org/2000/svg" width="880" height="300" viewBox="0 0 880 300">
    <g stroke="none" stroke-width="1" fill="none" fill-rule="oddeven">
        <g transform="translate(440, 145)">
            <text font-family="Helvetica Nue,Helvetica,Arial,sans-serif" font-size="25" font-weight="300" letter-spacing="1" text-anchor="end" fill="#444444">
                <tspan x="-12" y="12">OPENTHERM GATEWAY</tspan>
            </text>
            <line x1="0" y1="-12" x2="0" y2="18" stroke-width="1" stroke="#e1e1e1"/>
            <text font-family="Helvetica Nue,Helvetica,Arial,sans-serif" font-size="15" font-weight="300" fill="#7e7e7e">
                <tspan x="12" y="10">SMART CONTROLLER FOR BOILERS</tspan>
            </text>
        </g>
    </g>
 </svg>
@@ -1,7 +0,0 @@
 # Name,     Type,   SubType,    Offset,     Size,     Flags
 nvs,        data,   nvs,        0x9000,     0x5000,   
 otadata,    data,   ota,        0xE000,     0x2000,   
 app0,       app,    ota_0,      0x10000,    0x1B0000, 
 app1,       app,    ota_1,      0x1C0000,   0x1B0000, 
 spiffs,     data,   spiffs,     0x370000,   0x80000,  
 coredump,   data,   coredump,   0x3F0000,   0x10000,  
@@ -1,142 +0,0 @@
 const { src, dest, series, parallel } = require('gulp');
 const concat = require('gulp-concat');
 const gzip = require('gulp-gzip');
 const postcss = require('gulp-postcss');
 const cssnano = require('cssnano');
 const terser = require('gulp-terser');
 const jsonminify = require('gulp-jsonminify');
 const htmlmin = require('gulp-html-minifier-terser');
 // Paths for tasks
 let paths = {
  styles: {
    dest: 'data/static/',
    bundles: {
      'app.css': [
        'src_data/styles/pico.min.css',
        'src_data/styles/iconly.css',
        'src_data/styles/app.css'
      ]
    }
  },
  scripts: {
    dest: 'data/static/',
    bundles: {
      'app.js': [
        'src_data/scripts/i18n.min.js',
        'src_data/scripts/lang.js',
        'src_data/scripts/utils.js'
      ]
    }
  },
  json: [
    {
      src: 'src_data/locales/*.json',
      dest: 'data/static/locales/'
    }
  ],
  static: [
    {
      src: 'src_data/fonts/*.*',
      dest: 'data/static/fonts/'
    },
    {
      src: 'src_data/images/*.*',
      dest: 'data/static/images/'
    }
  ],
  pages: {
    src: 'src_data/pages/*.html',
    dest: 'data/pages/'
  }
 };
 // Tasks
 const styles = (cb) => {
  for (let name in paths.styles.bundles) {
    const items = paths.styles.bundles[name];
    src(items)
      .pipe(postcss([
        cssnano({ preset: 'advanced' })
      ]))
      .pipe(concat(name))
      .pipe(gzip({
        append: true
      }))
      .pipe(dest(paths.styles.dest));
  }
  cb();
 }
 const scripts = (cb) => {
  for (let name in paths.scripts.bundles) {
    const items = paths.scripts.bundles[name];
    src(items)
      .pipe(terser().on('error', console.error))
      .pipe(concat(name))
      .pipe(gzip({
        append: true
      }))
      .pipe(dest(paths.scripts.dest));
  }
  cb();
 }
 const jsonFiles = (cb) => {
  for (let i in paths.json) {
    const item = paths.json[i];
    src(item.src)
      .pipe(jsonminify())
      .pipe(gzip({
        append: true
      }))
      .pipe(dest(item.dest));
  }
  cb();
 }
 const staticFiles = (cb) => {
  for (let i in paths.static) {
    const item = paths.static[i];
    src(item.src, { encoding: false })
      .pipe(gzip({
        append: true
      }))
      .pipe(dest(item.dest));
  }
  cb();
 }
 const pages = () => {
  return src(paths.pages.src)
    .pipe(htmlmin({
      html5: true,
      caseSensitive: true,
      collapseWhitespace: true,
      collapseInlineTagWhitespace: true,
      conservativeCollapse: true,
      removeComments: true,
      minifyJS: true
    }))
    .pipe(gzip({
      append: true
    }))
    .pipe(dest(paths.pages.dest));
 }
 exports.build_styles = styles;
 exports.build_scripts = scripts;
 exports.build_json = jsonFiles;
 exports.build_static = staticFiles;
 exports.build_pages = pages;
 exports.build_all = parallel(styles, scripts, jsonFiles, staticFiles, pages);
@@ -0,0 +1,326 @@
 <!doctype html>
 <html lang="en">
  <head>
    <meta charset="utf-8" />
    <meta name="viewport" content="width=device-width, initial-scale=1" />
    <title>OTGateway Web Flasher</title>
    <link rel="stylesheet" href="https://cdn.jsdelivr.net/npm/@picocss/pico@2/css/pico.min.css" />
    <link rel="stylesheet" href="./styles.css" />
  </head>
  <body>
    <header class="container">
      <nav>
        <ul>
          <li>
            <a href="#">
              <div class="logo">OpenTherm Gateway</div>
            </a>
          </li>
        </ul>
        <ul>
          <li>
            <a href="https://github.com/Laxilef/OTGateway/wiki" role="button" class="secondary" target="_blank">Wiki</a>
          </li>
        </ul>
      </nav>
    </header>
    <main class="container">
      <article>
        <div>
          <hgroup>
            <h2>Web Flasher</h2>
            <p></p>
          </hgroup>
          <div>
            <label>
              <span>Choose version</span>
              <select name="fwVersion" disabled required>
                <option selected value="0">Choose version...</option>
              </select>
            </label>
            <label class="fwBoardContainer hidden">
              <span>Board</span>
              <select name="fwBoard" required>
                <option selected value="0">Choose board...</option>
              </select>
            </label>
            <div class="toolContainer hidden">
              <hr />
              <div>
                <b>Status:</b> <span class="status">Not connected</span>
                <br /><br />
              </div>
              <div class="progress hidden">
                <progress value="0" max="100"></progress>
                <br /><br />
              </div>
              <div class="grid">
                <button class="connect">💡 1. Connect</button>
                <button class="flash" disabled>🚀 2. Flash</button>
              </div>
            </div>
          </div>
          <div class="powered-by">
            <small>
              Powered by <a href="https://github.com/espressif/esptool-js/" target="_blank" class="secondary">espressif/esptool-js</a>
            </small>
          </div>
        </div>
      </article>
    </main>
    <footer class="container">
      <small>
        <b>Made by Laxilef</b>
        • <a href="https://github.com/Laxilef/OTGateway/blob/master/LICENSE" target="_blank" class="secondary">License</a>
        • <a href="https://github.com/Laxilef/OTGateway/blob/master/" target="_blank" class="secondary">Source code</a>
        • <a href="https://github.com/Laxilef/OTGateway/wiki" target="_blank" class="secondary">Help</a>
        • <a href="https://github.com/Laxilef/OTGateway/issues" target="_blank" class="secondary">Issues & questions</a>
        • <a href="https://github.com/Laxilef/OTGateway/releases" target="_blank" class="secondary">Releases</a>
      </small>
    </footer>
    <script type="module">
      import { ESPLoader, Transport } from "https://unpkg.com/esptool-js/bundle.js";
      let esploader = null;
      const fwVersion = document.querySelector("[name='fwVersion']");
      const fwBoardContainer = document.querySelector(".fwBoardContainer");
      const fwBoard = document.querySelector("[name='fwBoard']");
      const toolContainer = document.querySelector(".toolContainer");
      const statusContainer = document.querySelector(".status");
      const connectBtn = document.querySelector(".connect");
      const flashBtn = document.querySelector(".flash");
      const progressContainer = document.querySelector(".progress");
      async function loadFwVersions() {
        try {
          fwVersion.disabled = true;
          const response = await fetch("https://api.github.com/repos/Laxilef/OTGateway/releases", {
            cache: "no-cache"
          });
          const data = await response.json();
          for (let release of data) {
            const releaseDate = new Date(release.published_at).toLocaleDateString();
            const option = document.createElement("option");
            option.textContent = `${release.name} (${releaseDate})`;
            option.value = release.id;
            fwVersion.appendChild(option);
          }
        } catch (error) {
          console.error("Error fetching releases:", error);
          alert("Error fetching releases");
          return false;
        }
        fwVersion.disabled = false;
        return true;
      }
      async function loadFwBoards(releaseId) {
        let configUrl = null;
        let files = [];
        try {
          const response = await fetch(`https://api.github.com/repos/Laxilef/OTGateway/releases/${releaseId}/assets`, {
            cache: "no-cache"
          });
          const assets = await response.json();
          for (const file of assets) {
            if (file.name == "webflasher.json") {
              configUrl = file.browser_download_url;
            } else {
              files.push({
                "name": file.name,
                "url": file.browser_download_url
              });
            }
          }
        } catch (error) {
          console.error("Error fetching release:", error);
          alert("Error fetching release");
          return false;
        }
        if (!configUrl) {
          return false;
        }
        try {
          while (fwBoard.length > 1) {
            fwBoard.remove(1);
          }
          const response = await fetch(`https://corsproxy.io/?url=${configUrl}`, {
            cache: "no-cache"
          });
          const boards = await response.json();
          for (let board of boards) {
            let value = [];
            for (let file of board.files) {
              for (let sFile of files) {
                if (file.name == sFile.name) {
                  value.push({
                    "address": file.address,
                    "name": file.name,
                    "url": sFile.url
                  });
                }
              }
            }
            const option = document.createElement("option");
            option.textContent = board.name;
            option.value = JSON.stringify(value);
            fwBoard.appendChild(option);
          }
        } catch (error) {
          console.error("Error fetching release config:", error);
          alert("Error fetching release config");
          return false;
        }
        return true;
      }
      fwVersion.addEventListener("change", async (element) => {
        fwBoardContainer.classList.toggle("hidden", true);
        toolContainer.classList.toggle("hidden", true);
        if (element.target.value == 0) {
          return;
        }
        if (await loadFwBoards(element.target.value)) {
          fwBoardContainer.classList.toggle("hidden", false);
        } else {
          alert("This version is not supported by web flasher");
        }
      });
      fwBoard.addEventListener("change", async (element) => {
        if (element.target.value == 0) {
          toolContainer.classList.toggle("hidden", true);
          return;
        }
        toolContainer.classList.toggle("hidden", false);
      });
      connectBtn.addEventListener("click", async () => {
        connectBtn.disabled = true;
        flashBtn.disabled = true;
        try {
          statusContainer.textContent = "Connecting...";
          const device = await navigator.serial.requestPort({});
          const transport = new Transport(device);
          esploader = new ESPLoader({
            transport: transport,
            baudrate: parseInt(115200),
            debugLogging: false,
          });
          const model = await esploader.main();
          flashBtn.disabled = false;
          statusContainer.textContent = `Connected to ${model}`;
        } catch (error) {
          statusContainer.textContent = "Failed to connect to device! Maybe this browser is not supported?";
        } finally {
          connectBtn.disabled = false;
        }
      });
      flashBtn.addEventListener("click", async () => {
        connectBtn.disabled = true;
        flashBtn.disabled = true;
        progressContainer.classList.toggle("hidden", false);
        const progressBar = progressContainer.querySelector("progress");
        progressBar.removeAttribute("value");
        progressBar.removeAttribute("max");
        let files = JSON.parse(fwBoard[fwBoard.selectedIndex].value);
        try {
          statusContainer.textContent = "Downloading files...";
          for (let file of files) {
            const response = await fetch(`https://corsproxy.io/?url=${file.url}`, {
              cache: "no-cache"
            });
            const firmwareArrayBuffer = await response.arrayBuffer();
            const uint8Array = new Uint8Array(firmwareArrayBuffer);
            file.data = "";
            for (let i = 0; i < uint8Array.length; i++) {
              file.data += String.fromCharCode(uint8Array[i]);
            }
          }
        } catch (error) {
          statusContainer.textContent = "Failed to download files";
          connectBtn.disabled = false;
          flashBtn.disabled = false;
          progressContainer.classList.toggle("hidden", true);
          return;
        }
        try {
          statusContainer.textContent = "Erasing flash...";
          await esploader.writeFlash({
            fileArray: files,
            flashSize: "keep",
            eraseAll: true,
            compress: true,
            reportProgress: (fIndex, written, total) => {
              progressBar.setAttribute("value", (written / total) * 100);
              progressBar.setAttribute("max", 100);
              statusContainer.textContent = `Flashing '${files[fIndex].name}'...`;
            }
          });
          statusContainer.textContent = "Flashed successfully!";
          try {
            await esploader.hardReset();
          } catch (error) { }
        } catch (error) {
          statusContainer.textContent = `Failed to write: ${error}`;
        } finally {
          connectBtn.disabled = false;
          //flashBtn.disabled = false;
          progressContainer.classList.toggle("hidden", true);
        }
      });
      await loadFwVersions();
    </script>
  </body>
 </html>
@@ -1,91 +0,0 @@
 class BufferedWebServer {
 public:
  BufferedWebServer(WebServer* webServer, size_t bufferSize = 64) {
    this->webServer = webServer;
    this->bufferSize = bufferSize;
    this->buffer = (uint8_t*)malloc(bufferSize * sizeof(*this->buffer));
  }
  ~BufferedWebServer() {
    free(this->buffer);
  }
  void send(int code, const char* contentType, JsonDocument& content, bool pretty = false) {
    #ifdef ARDUINO_ARCH_ESP8266
    if (!this->webServer->chunkedResponseModeStart(code, contentType)) {
      this->webServer->send(505, F("text/html"), F("HTTP1.1 required"));
      return;
    }
    this->webServer->setContentLength(measureJson(content));
    #else
    this->webServer->setContentLength(CONTENT_LENGTH_UNKNOWN);
    this->webServer->sendHeader(F("Content-Length"), String(measureJson(content)));
    this->webServer->send(code, contentType, emptyString);
    #endif
    if (pretty) {
      serializeJsonPretty(content, *this);
    } else {
      serializeJson(content, *this);
    }
    this->flush();
    #ifdef ARDUINO_ARCH_ESP8266
    this->webServer->chunkedResponseFinalize();
    #else
    this->webServer->sendContent(emptyString);
    #endif
  }
  size_t write(uint8_t c) {
    this->buffer[this->bufferPos++] = c;
    if (this->bufferPos >= this->bufferSize) {
      this->flush();
    }
    return 1;
  }
  size_t write(const uint8_t* buffer, size_t length) {
    size_t written = 0;
    while (written < length) {
      size_t copySize = this->bufferSize - this->bufferPos;
      if (written + copySize > length) {
        copySize = length - written;
      }
      memcpy(this->buffer + this->bufferPos, buffer + written, copySize);
      this->bufferPos += copySize;
      if (this->bufferPos >= this->bufferSize) {
        this->flush();
      }
      written += copySize;
    }
    return written;
  }
  void flush() {
    if (this->bufferPos == 0) {
      return;
    }
    this->webServer->sendContent((const char*)this->buffer, this->bufferPos);
    this->bufferPos = 0;
    #ifdef ARDUINO_ARCH_ESP8266
    ::delay(0);
    #endif
  }
 protected:
  WebServer* webServer = nullptr;
  uint8_t* buffer;
  size_t bufferSize = 64;
  size_t bufferPos = 0;
 };
@@ -1,217 +0,0 @@
 #include <Arduino.h>
 #include <OpenTherm.h>
 class CustomOpenTherm : public OpenTherm {
 public:
  typedef std::function<void()> YieldCallback;
  typedef std::function<void(unsigned long, byte)> BeforeSendRequestCallback;
  typedef std::function<void(unsigned long, unsigned long, OpenThermResponseStatus, byte)> AfterSendRequestCallback;
  CustomOpenTherm(int inPin = 4, int outPin = 5, bool isSlave = false) : OpenTherm(inPin, outPin, isSlave) {}
  ~CustomOpenTherm() {}
  CustomOpenTherm* setYieldCallback(YieldCallback callback = nullptr) {
    this->yieldCallback = callback;
    return this;
  }
  CustomOpenTherm* setBeforeSendRequestCallback(BeforeSendRequestCallback callback = nullptr) {
    this->beforeSendRequestCallback = callback;
    return this;
  }
  CustomOpenTherm* setAfterSendRequestCallback(AfterSendRequestCallback callback = nullptr) {
    this->afterSendRequestCallback = callback;
    return this;
  }
  unsigned long sendRequest(unsigned long request, byte attempts = 5, byte _attempt = 0) {
    _attempt++;
    while (!this->isReady()) {
      if (this->yieldCallback) {
        this->yieldCallback();
      } else {
        ::yield();
      }
      this->process();
    }
    if (this->beforeSendRequestCallback) {
      this->beforeSendRequestCallback(request, _attempt);
    }
    unsigned long _response;
    OpenThermResponseStatus _responseStatus = OpenThermResponseStatus::NONE;
    if (!this->sendRequestAsync(request)) {
      _response = 0;
    } else {
      while (true) {
        this->process();
        if (this->status == OpenThermStatus::READY || this->status == OpenThermStatus::DELAY) {
          break;
        } else if (this->yieldCallback) {
          this->yieldCallback();
        } else {
          ::yield();
        }
      }
      _response = this->getLastResponse();
      _responseStatus = this->getLastResponseStatus();
    }
    if (this->afterSendRequestCallback) {
      this->afterSendRequestCallback(request, _response, _responseStatus, _attempt);
    }
    if (_responseStatus == OpenThermResponseStatus::SUCCESS || _responseStatus == OpenThermResponseStatus::INVALID || _attempt >= attempts) {
      return _response;
    } else {
      return this->sendRequest(request, attempts, _attempt);
    }
  }
  unsigned long setBoilerStatus(bool enableCentralHeating, bool enableHotWater, bool enableCooling, bool enableOutsideTemperatureCompensation, bool enableCentralHeating2, bool summerWinterMode, bool dhwBlocking, uint8_t lb = 0) {
    unsigned int data = enableCentralHeating
      | (enableHotWater << 1)
      | (enableCooling << 2)
      | (enableOutsideTemperatureCompensation << 3)
      | (enableCentralHeating2 << 4)
      | (summerWinterMode << 5)
      | (dhwBlocking << 6);
    data <<= 8;
    data |= lb;
    return this->sendRequest(buildRequest(
      OpenThermMessageType::READ_DATA,
      OpenThermMessageID::Status,
      data
    ));
  }
  bool setHeatingCh1Temp(float temperature) {
    unsigned long response = this->sendRequest(buildRequest(
      OpenThermMessageType::WRITE_DATA,
      OpenThermMessageID::TSet,
      temperatureToData(temperature)
    ));
    return isValidResponse(response) && isValidResponseId(response, OpenThermMessageID::TSet);
  }
  bool setHeatingCh2Temp(float temperature) {
    unsigned long response = this->sendRequest(buildRequest(
      OpenThermMessageType::WRITE_DATA,
      OpenThermMessageID::TsetCH2,
      temperatureToData(temperature)
    ));
    return isValidResponse(response) && isValidResponseId(response, OpenThermMessageID::TsetCH2);
  }
  bool setDhwTemp(float temperature) {
    unsigned long response = this->sendRequest(buildRequest(
      OpenThermMessageType::WRITE_DATA,
      OpenThermMessageID::TdhwSet,
      temperatureToData(temperature)
    ));
    return isValidResponse(response) && isValidResponseId(response, OpenThermMessageID::TdhwSet);
  }
  bool setRoomSetpoint(float temperature) {
    unsigned long response = this->sendRequest(buildRequest(
      OpenThermMessageType::WRITE_DATA,
      OpenThermMessageID::TrSet,
      temperatureToData(temperature)
    ));
    return isValidResponse(response) && isValidResponseId(response, OpenThermMessageID::TrSet);
  }
  bool setRoomSetpointCh2(float temperature) {
    unsigned long response = this->sendRequest(buildRequest(
      OpenThermMessageType::WRITE_DATA,
      OpenThermMessageID::TrSetCH2,
      temperatureToData(temperature)
    ));
    return isValidResponse(response) && isValidResponseId(response, OpenThermMessageID::TrSetCH2);
  }
  bool setRoomTemp(float temperature) {
    unsigned long response = this->sendRequest(buildRequest(
      OpenThermMessageType::WRITE_DATA,
      OpenThermMessageID::Tr,
      temperatureToData(temperature)
    ));
    return isValidResponse(response) && isValidResponseId(response, OpenThermMessageID::Tr);
  }
  bool sendBoilerReset() {
    unsigned int data = 1;
    data <<= 8;
    unsigned long response = this->sendRequest(buildRequest(
      OpenThermMessageType::WRITE_DATA,
      OpenThermMessageID::RemoteRequest,
      data
    ));
    return isValidResponse(response) && isValidResponseId(response, OpenThermMessageID::RemoteRequest);
  }
  bool sendServiceReset() {
    unsigned int data = 10;
    data <<= 8;
    unsigned long response = this->sendRequest(buildRequest(
      OpenThermMessageType::WRITE_DATA,
      OpenThermMessageID::RemoteRequest,
      data
    ));
    return isValidResponse(response) && isValidResponseId(response, OpenThermMessageID::RemoteRequest);
  }
  bool sendWaterFilling() {
    unsigned int data = 2;
    data <<= 8;
    unsigned long response = this->sendRequest(buildRequest(
      OpenThermMessageType::WRITE_DATA,
      OpenThermMessageID::RemoteRequest,
      data
    ));
    return isValidResponse(response) && isValidResponseId(response, OpenThermMessageID::RemoteRequest);
  }
  static bool isValidResponseId(unsigned long response, OpenThermMessageID id) {
    byte responseId = (response >> 16) & 0xFF;
    return (byte)id == responseId;
  }
  // converters
  template <class T>
  static unsigned int toFloat(const T val) {
    return (unsigned int)(val * 256);
  }
  static short getInt(const unsigned long response) {
    return response & 0xffff;
  }
 protected:
  YieldCallback yieldCallback;
  BeforeSendRequestCallback beforeSendRequestCallback;
  AfterSendRequestCallback afterSendRequestCallback;
 };
@@ -1,63 +0,0 @@
 #include <Arduino.h>
 #if defined(EQUITHERM_INTEGER)
 // расчёты с целыми числами
 typedef int datatype;
 #else
 // расчёты с float числами
 typedef float datatype;
 #endif
 class Equitherm {
 public:
  datatype targetTemp = 0;
  datatype indoorTemp = 0;
  datatype outdoorTemp = 0;
  float Kn = 0.0;
  float Kk = 0.0;
  float Kt = 0.0;
  Equitherm() = default;
  // kn, kk, kt
  Equitherm(float new_kn, float new_kk, float new_kt) {
    Kn = new_kn;
    Kk = new_kk;
    Kt = new_kt;
  }
  // лимит выходной величины
  void setLimits(unsigned short min_output, unsigned short max_output) {
    _minOut = min_output;
    _maxOut = max_output;
  }
  // возвращает новое значение при вызове
  datatype getResult() {
    datatype output = getResultN() + getResultK() + getResultT();
    output = constrain(output, _minOut, _maxOut);		// ограничиваем выход
    return output;
  }
 private:
  unsigned short _minOut = 20, _maxOut = 90;
  // температура контура отопления в зависимости от наружной температуры
  datatype getResultN() {
    float a = (-0.21 * Kn) - 0.06;     // a = -0,21k — 0,06
    float b = (6.04 * Kn) + 1.98;      // b = 6,04k + 1,98
    float c = (-5.06 * Kn) + 18.06;    // с = -5,06k + 18,06
    float x = (-0.2 * outdoorTemp) + 5; // x = -0.2*t1 + 5
    return (a * x * x) + (b * x) + c;       // Tn = ax2 + bx + c
  }
  // поправка на желаемую комнатную температуру
  datatype getResultK() {
    return (targetTemp - 20) * Kk;
  }
  // Расчет поправки (ошибки) термостата
  datatype getResultT() {
    return constrain((targetTemp - indoorTemp), -3, 3) * Kt;
  }
 };
@@ -1,145 +0,0 @@
 #pragma once
 #include <Arduino.h>
 #include "strings.h"
 class HomeAssistantHelper {
 public:
  typedef std::function<void(const char*, bool)> PublishEventCallback;
  HomeAssistantHelper() = default;
  void setWriter() {
    this->writer = nullptr;
  }
  void setWriter(MqttWriter* writer) {
    this->writer = writer;
  }
  void setPublishEventCallback(PublishEventCallback callback) {
    this->publishEventCallback = callback;
  }
  void setDevicePrefix(const char* value) {
    this->devicePrefix = value;
  }
  void setDeviceVersion(const char* value) {
    this->deviceVersion = value;
  }
  void setDeviceManufacturer(const char* value) {
    this->deviceManufacturer = value;
  }
  void setDeviceModel(const char* value) {
    this->deviceModel = value;
  }
  void setDeviceName(const char* value) {
    this->deviceName = value;
  }
  void setDeviceConfigUrl(const char* value) {
    this->deviceConfigUrl = value;
  }
  bool publish(const char* topic, JsonDocument& doc) {
    if (this->writer == nullptr) {
      if (this->publishEventCallback) {
        this->publishEventCallback(topic, false);
      }
      return false;
    }
    doc[FPSTR(HA_DEVICE)][FPSTR(HA_IDENTIFIERS)][0] = this->devicePrefix;
    doc[FPSTR(HA_DEVICE)][FPSTR(HA_SW_VERSION)] = this->deviceVersion;
    if (this->deviceManufacturer != nullptr) {
      doc[FPSTR(HA_DEVICE)][FPSTR(HA_MANUFACTURER)] = this->deviceManufacturer;
    }
    if (this->deviceModel != nullptr) {
      doc[FPSTR(HA_DEVICE)][FPSTR(HA_MODEL)] = this->deviceModel;
    }
    if (this->deviceName != nullptr) {
      doc[FPSTR(HA_DEVICE)][FPSTR(HA_NAME)] = this->deviceName;
    }
    if (this->deviceConfigUrl != nullptr) {
      doc[FPSTR(HA_DEVICE)][FPSTR(HA_CONF_URL)] = this->deviceConfigUrl;
    }
    bool result = this->writer->publish(topic, doc, true);
    doc.clear();
    doc.shrinkToFit();
    if (this->publishEventCallback) {
      this->publishEventCallback(topic, result);
    }
    return result;
  }
  bool publish(const char* topic) {
    if (this->writer == nullptr) {
      if (this->publishEventCallback) {
        this->publishEventCallback(topic, false);
      }
      return false;
    }
    bool result = writer->publish(topic, nullptr, 0, true);
    if (this->publishEventCallback) {
      this->publishEventCallback(topic, result);
    }
    return result;
  }
  template <class T>
  String getTopic(T category, T name, char nameSeparator = '/') {
    String topic = "";
    topic.concat(this->prefix);
    topic.concat('/');
    topic.concat(category);
    topic.concat('/');
    topic.concat(this->devicePrefix);
    topic.concat(nameSeparator);
    topic.concat(name);
    topic.concat("/config");
    return topic;
  }
  template <class T> 
  String getDeviceTopic(T value, char separator = '/') {
    String topic = "";
    topic.concat(this->devicePrefix);
    topic.concat(separator);
    topic.concat(value);
    return topic;
  }
  template <class T> 
  String getObjectId(T value, char separator = '_') {
    String topic = "";
    topic.concat(this->devicePrefix);
    topic.concat(separator);
    topic.concat(value);
    return topic;
  }
 protected:
  PublishEventCallback publishEventCallback;
  MqttWriter* writer = nullptr;
  const char* prefix = "homeassistant";
  const char* devicePrefix = "";
  const char* deviceVersion = "1.0";
  const char* deviceManufacturer = nullptr;
  const char* deviceModel = nullptr;
  const char* deviceName = nullptr;
  const char* deviceConfigUrl = nullptr;
 };
@@ -1,70 +0,0 @@
 #pragma once
 #ifndef PROGMEM
  #define PROGMEM 
 #endif
 const char HA_ENTITY_BINARY_SENSOR[]            PROGMEM = "binary_sensor";
 const char HA_ENTITY_BUTTON[]                   PROGMEM = "button";
 const char HA_ENTITY_FAN[]                      PROGMEM = "fan";
 const char HA_ENTITY_CLIMATE[]                  PROGMEM = "climate";
 const char HA_ENTITY_NUMBER[]                   PROGMEM = "number";
 const char HA_ENTITY_SELECT[]                   PROGMEM = "select";
 const char HA_ENTITY_SENSOR[]                   PROGMEM = "sensor";
 const char HA_ENTITY_SWITCH[]                   PROGMEM = "switch";
 const char HA_DEVICE[]                          PROGMEM = "device";
 const char HA_IDENTIFIERS[]                     PROGMEM = "identifiers";
 const char HA_SW_VERSION[]                      PROGMEM = "sw_version";
 const char HA_MANUFACTURER[]                    PROGMEM = "manufacturer";
 const char HA_MODEL[]                           PROGMEM = "model";
 const char HA_NAME[]                            PROGMEM = "name";
 const char HA_CONF_URL[]                        PROGMEM = "configuration_url";
 const char HA_COMMAND_TOPIC[]                   PROGMEM = "command_topic";
 const char HA_COMMAND_TEMPLATE[]                PROGMEM = "command_template";
 const char HA_ENABLED_BY_DEFAULT[]              PROGMEM = "enabled_by_default";
 const char HA_UNIQUE_ID[]                       PROGMEM = "unique_id";
 const char HA_OBJECT_ID[]                       PROGMEM = "object_id";
 const char HA_ENTITY_CATEGORY[]                 PROGMEM = "entity_category";
 const char HA_STATE_TOPIC[]                     PROGMEM = "state_topic";
 const char HA_VALUE_TEMPLATE[]                  PROGMEM = "value_template";
 const char HA_OPTIONS[]                         PROGMEM = "options";
 const char HA_AVAILABILITY[]                    PROGMEM = "availability";
 const char HA_AVAILABILITY_MODE[]               PROGMEM = "availability_mode";
 const char HA_TOPIC[]                           PROGMEM = "topic";
 const char HA_DEVICE_CLASS[]                    PROGMEM = "device_class";
 const char HA_UNIT_OF_MEASUREMENT[]             PROGMEM = "unit_of_measurement";
 const char HA_UNIT_OF_MEASUREMENT_C[]           PROGMEM = "°C";
 const char HA_UNIT_OF_MEASUREMENT_F[]           PROGMEM = "°F";
 const char HA_ICON[]                            PROGMEM = "icon";
 const char HA_MIN[]                             PROGMEM = "min";
 const char HA_MAX[]                             PROGMEM = "max";
 const char HA_STEP[]                            PROGMEM = "step";
 const char HA_MODE[]                            PROGMEM = "mode";
 const char HA_STATE_ON[]                        PROGMEM = "state_on";
 const char HA_STATE_OFF[]                       PROGMEM = "state_off";
 const char HA_PAYLOAD_ON[]                      PROGMEM = "payload_on";
 const char HA_PAYLOAD_OFF[]                     PROGMEM = "payload_off";
 const char HA_STATE_CLASS[]                     PROGMEM = "state_class";
 const char HA_EXPIRE_AFTER[]                    PROGMEM = "expire_after";
 const char HA_CURRENT_TEMPERATURE_TOPIC[]       PROGMEM = "current_temperature_topic";
 const char HA_CURRENT_TEMPERATURE_TEMPLATE[]    PROGMEM = "current_temperature_template";
 const char HA_TEMPERATURE_COMMAND_TOPIC[]       PROGMEM = "temperature_command_topic";
 const char HA_TEMPERATURE_COMMAND_TEMPLATE[]    PROGMEM = "temperature_command_template";
 const char HA_TEMPERATURE_STATE_TOPIC[]         PROGMEM = "temperature_state_topic";
 const char HA_TEMPERATURE_STATE_TEMPLATE[]      PROGMEM = "temperature_state_template";
 const char HA_TEMPERATURE_UNIT[]                PROGMEM = "temperature_unit";
 const char HA_MODE_COMMAND_TOPIC[]              PROGMEM = "mode_command_topic";
 const char HA_MODE_COMMAND_TEMPLATE[]           PROGMEM = "mode_command_template";
 const char HA_MODE_STATE_TOPIC[]                PROGMEM = "mode_state_topic";
 const char HA_MODE_STATE_TEMPLATE[]             PROGMEM = "mode_state_template";
 const char HA_MODES[]                           PROGMEM = "modes";
 const char HA_ACTION_TOPIC[]                    PROGMEM = "action_topic";
 const char HA_ACTION_TEMPLATE[]                 PROGMEM = "action_template";
 const char HA_MIN_TEMP[]                        PROGMEM = "min_temp";
 const char HA_MAX_TEMP[]                        PROGMEM = "max_temp";
 const char HA_TEMP_STEP[]                       PROGMEM = "temp_step";
 const char HA_PRESET_MODE_COMMAND_TOPIC[]       PROGMEM = "preset_mode_command_topic";
 const char HA_PRESET_MODE_COMMAND_TEMPLATE[]    PROGMEM = "preset_mode_command_template";
 const char HA_PRESET_MODE_STATE_TOPIC[]         PROGMEM = "preset_mode_state_topic";
 const char HA_PRESET_MODE_VALUE_TEMPLATE[]      PROGMEM = "preset_mode_value_template";
 const char HA_PRESET_MODES[]                    PROGMEM = "preset_modes";
@@ -1,24 +0,0 @@
 #include <WiFiClient.h>
 class MqttWiFiClient : public WiFiClient {
 public:
 #ifdef ARDUINO_ARCH_ESP8266
  void flush() override {
    if (this->connected()) {
      WiFiClient::flush(0);
    }
  }
  void stop() override {
    this->abort();
  }
 #endif
 #ifdef ARDUINO_ARCH_ESP32
  void setSync(bool) {}
  bool getSync() {
    return false;
  }
 #endif
 };
@@ -1,220 +0,0 @@
 #pragma once
 #include <Arduino.h>
 #include <MqttClient.h>
 #ifdef ARDUINO_ARCH_ESP32
 #include <mutex>
 #endif
 class MqttWriter {
 public:
  typedef std::function<void()> YieldCallback;
  typedef std::function<void(const char*, size_t, size_t, bool)> PublishEventCallback;
  typedef std::function<void(size_t, size_t)> FlushEventCallback;
  MqttWriter(MqttClient* client, size_t bufferSize = 64) {
    this->client = client;
    this->bufferSize = bufferSize;
    this->buffer = (uint8_t*) malloc(bufferSize * sizeof(*this->buffer));
 #ifdef ARDUINO_ARCH_ESP32
    this->mutex = new std::mutex();
 #endif
  }
  ~MqttWriter() {
    free(this->buffer);
 #ifdef ARDUINO_ARCH_ESP32
    delete this->mutex;
 #endif
  }
  MqttWriter* setYieldCallback(YieldCallback callback = nullptr) {
    this->yieldCallback = callback;
    return this;
  }
  MqttWriter* setPublishEventCallback(PublishEventCallback callback) {
    this->publishEventCallback = callback;
    return this;
  }
  MqttWriter* setFlushEventCallback(FlushEventCallback callback) {
    this->flushEventCallback = callback;
    return this;
  }
  bool lock() {
 #ifdef ARDUINO_ARCH_ESP32
    if (!this->mutex->try_lock()) {
      return false;
    }
 #else
    if (this->isLocked()) {
      return false;
    }
 #endif
    this->locked = true;
    this->writeAfterLock = 0;
    this->lockedTime = millis();
    return true;
  }
  bool isLocked() {
    return this->locked;
  }
  void unlock() {
    this->locked = false;
 #if defined(ARDUINO_ARCH_ESP32)
    this->mutex->unlock();
 #endif
  }
  bool publish(const char* topic, JsonDocument& doc, bool retained = false) {
    if (!this->client->connected()) {
      this->bufferPos = 0;
      return false;
    }
    while (!this->lock()) {
      if (this->yieldCallback) {
        this->yieldCallback();
      }
    }
    this->bufferPos = 0;
    size_t docSize = measureJson(doc);
    size_t written = 0;
    if (this->client->beginMessage(topic, docSize, retained)) {
      serializeJson(doc, *this);
      this->flush();
      this->client->endMessage();
      written = this->writeAfterLock;
    }
    this->unlock();
    if (this->publishEventCallback) {
      this->publishEventCallback(topic, written, docSize, written == docSize);
    }
    return written == docSize;
  }
  bool publish(const char* topic, const char* buffer, bool retained = false) {
    return this->publish(topic, (const uint8_t*) buffer, strlen(buffer), retained);
  }
  bool publish(const char* topic, const uint8_t* buffer, size_t length, bool retained = false) {
    if (!this->client->connected()) {
      this->bufferPos = 0;
      return false;
    }
    while (!this->lock()) {
      if (this->yieldCallback) {
        this->yieldCallback();
      }
    }
    this->bufferPos = 0;
    size_t written = 0;
    bool result = false;
    if (!length || buffer == nullptr) {
      result = this->client->beginMessage(topic, retained) && this->client->endMessage();
    } else if (this->client->beginMessage(topic, length, retained)) {
      this->write(buffer, length);
      this->flush();
      this->client->endMessage();
      written = this->writeAfterLock;
      result = written == length;
    }
    this->unlock();
    if (this->publishEventCallback) {
      this->publishEventCallback(topic, written, length, result);
    }
    return result;
  }
  size_t write(uint8_t c) {
    this->buffer[this->bufferPos++] = c;
    if (this->bufferPos >= this->bufferSize) {
      this->flush();
    }
    return 1;
  }
  size_t write(const uint8_t* buffer, size_t length) {
    size_t written = 0;
    while (written < length) {
      size_t copySize = this->bufferSize - this->bufferPos;
      if (written + copySize > length) {
        copySize = length - written;
      }
      memcpy(this->buffer + this->bufferPos, buffer + written, copySize);
      this->bufferPos += copySize;
      if (this->bufferPos >= this->bufferSize) {
        this->flush();
      }
      written += copySize;
    }
    return written;
  }
  bool flush() {
    if (this->bufferPos == 0) {
      return false;
    }
    if (!this->client->connected()) {
      this->bufferPos = 0;
    }
    size_t length = this->bufferPos;
    size_t written = this->client->write(this->buffer, length);
    this->client->flush();
    this->bufferPos = 0;
    if (this->isLocked()) {
      this->writeAfterLock += written;
    }
    if (this->flushEventCallback) {
      this->flushEventCallback(written, length);
    }
    return written == length;
  }
 protected:
  YieldCallback yieldCallback;
  PublishEventCallback publishEventCallback;
  FlushEventCallback flushEventCallback;
  MqttClient* client;
  uint8_t* buffer;
  size_t bufferSize = 64;
  size_t bufferPos = 0;
  bool locked = false;
 #ifdef ARDUINO_ARCH_ESP32
  mutable std::mutex* mutex;
 #endif
  unsigned long lockedTime = 0;
  size_t writeAfterLock = 0;
 };
@@ -1,158 +0,0 @@
 #include "NetworkConnection.h"
 using namespace NetworkUtils;
 void NetworkConnection::setup(bool useDhcp) {
  setUseDhcp(useDhcp);
  #if defined(ARDUINO_ARCH_ESP8266)
  wifi_set_event_handler_cb(NetworkConnection::onEvent);
  #elif defined(ARDUINO_ARCH_ESP32)
  WiFi.onEvent(NetworkConnection::onEvent);
  #endif
 }
 void NetworkConnection::reset() {
  status = Status::NONE;
  rawDisconnectReason = 0;
  disconnectReason = DisconnectReason::NONE;
 }
 void NetworkConnection::setUseDhcp(bool value) {
  useDhcp = value;
 }
 NetworkConnection::Status NetworkConnection::getStatus() {
  return status;
 }
 NetworkConnection::DisconnectReason NetworkConnection::getDisconnectReason() {
  return disconnectReason;
 }
 #if defined(ARDUINO_ARCH_ESP8266)
 void NetworkConnection::onEvent(System_Event_t *event) {
  switch (event->event) {
    case EVENT_STAMODE_CONNECTED:
      status = useDhcp ? Status::CONNECTING : Status::CONNECTED;
      rawDisconnectReason = 0;
      disconnectReason = DisconnectReason::NONE;
      break;
    case EVENT_STAMODE_GOT_IP:
      status = Status::CONNECTED;
      rawDisconnectReason = 0;
      disconnectReason = DisconnectReason::NONE;
      break;
    case EVENT_STAMODE_DHCP_TIMEOUT:
      status = Status::DISCONNECTED;
      rawDisconnectReason = 0;
      disconnectReason = DisconnectReason::DHCP_TIMEOUT;
      break;
    case EVENT_STAMODE_DISCONNECTED:
      status = Status::DISCONNECTED;
      rawDisconnectReason = event->event_info.disconnected.reason;
      disconnectReason = convertDisconnectReason(event->event_info.disconnected.reason);
      // https://github.com/esp8266/Arduino/blob/d5eb265f78bff9deb7063d10030a02d021c8c66c/libraries/ESP8266WiFi/src/ESP8266WiFiGeneric.cpp#L231
      if ((wifi_station_get_connect_status() == STATION_GOT_IP) && !wifi_station_get_reconnect_policy()) {
        wifi_station_disconnect();
      }
      break;
    case EVENT_STAMODE_AUTHMODE_CHANGE:
      // https://github.com/esp8266/Arduino/blob/d5eb265f78bff9deb7063d10030a02d021c8c66c/libraries/ESP8266WiFi/src/ESP8266WiFiGeneric.cpp#L241
      {
        auto& src = event->event_info.auth_change;
        if ((src.old_mode != AUTH_OPEN) && (src.new_mode == AUTH_OPEN)) {
          status = Status::DISCONNECTED;
          rawDisconnectReason = 0;
          disconnectReason = DisconnectReason::OTHER;
          wifi_station_disconnect();
        }
      }
      break;
    default:
      break;
  }
 }
 #elif defined(ARDUINO_ARCH_ESP32)
 void NetworkConnection::onEvent(WiFiEvent_t event, WiFiEventInfo_t info) {
  switch (event) {
    case ARDUINO_EVENT_WIFI_STA_CONNECTED:
      status = useDhcp ? Status::CONNECTING : Status::CONNECTED;
      rawDisconnectReason = 0;
      disconnectReason = DisconnectReason::NONE;
      break;
    case ARDUINO_EVENT_WIFI_STA_GOT_IP:
    case ARDUINO_EVENT_WIFI_STA_GOT_IP6:
      status = Status::CONNECTED;
      rawDisconnectReason = 0;
      disconnectReason = DisconnectReason::NONE;
      break;
    case ARDUINO_EVENT_WIFI_STA_LOST_IP:
      status = Status::DISCONNECTED;
      rawDisconnectReason = 0;
      disconnectReason = DisconnectReason::DHCP_TIMEOUT;
      break;
    case ARDUINO_EVENT_WIFI_STA_DISCONNECTED:
      status = Status::DISCONNECTED;
      rawDisconnectReason = info.wifi_sta_disconnected.reason;
      disconnectReason = convertDisconnectReason(info.wifi_sta_disconnected.reason);
      break;
    default:
      break;
  }
 }
 #endif
 NetworkConnection::DisconnectReason NetworkConnection::convertDisconnectReason(uint8_t reason) {
  switch (reason) {
  #if defined(ARDUINO_ARCH_ESP8266)
    case REASON_BEACON_TIMEOUT:
      return DisconnectReason::BEACON_TIMEOUT;
    case REASON_NO_AP_FOUND:
      return DisconnectReason::NO_AP_FOUND;
    case REASON_AUTH_FAIL:
      return DisconnectReason::AUTH_FAIL;
    case REASON_ASSOC_FAIL:
      return DisconnectReason::ASSOC_FAIL;
    case REASON_HANDSHAKE_TIMEOUT:
      return DisconnectReason::HANDSHAKE_TIMEOUT;
  #elif defined(ARDUINO_ARCH_ESP32)
    case WIFI_REASON_BEACON_TIMEOUT:
      return DisconnectReason::BEACON_TIMEOUT;
    case WIFI_REASON_NO_AP_FOUND:
      return DisconnectReason::NO_AP_FOUND;
    case WIFI_REASON_AUTH_FAIL:
      return DisconnectReason::AUTH_FAIL;
    case WIFI_REASON_ASSOC_FAIL:
      return DisconnectReason::ASSOC_FAIL;
    case WIFI_REASON_HANDSHAKE_TIMEOUT:
      return DisconnectReason::HANDSHAKE_TIMEOUT;
  #endif
    default:
      return DisconnectReason::OTHER;
  }
 }
 bool NetworkConnection::useDhcp = false;
 NetworkConnection::Status NetworkConnection::status = Status::NONE;
 NetworkConnection::DisconnectReason NetworkConnection::disconnectReason = DisconnectReason::NONE;
 uint8_t NetworkConnection::rawDisconnectReason = 0;
@@ -1,47 +0,0 @@
 #if defined(ARDUINO_ARCH_ESP8266)
  #include <ESP8266WiFi.h>
  #include "lwip/etharp.h"
 #elif defined(ARDUINO_ARCH_ESP32)
  #include <WiFi.h>
 #endif
 namespace NetworkUtils {
  struct NetworkConnection {
    enum class Status {
      CONNECTED,
      CONNECTING,
      DISCONNECTED,
      NONE
    };
    enum class DisconnectReason {
      BEACON_TIMEOUT,
      NO_AP_FOUND,
      AUTH_FAIL,
      ASSOC_FAIL,
      HANDSHAKE_TIMEOUT,
      DHCP_TIMEOUT,
      OTHER,
      NONE
    };
    static Status status;
    static DisconnectReason disconnectReason;
    static uint8_t rawDisconnectReason;
    static void setup(bool useDhcp);
    static void setUseDhcp(bool value);
    static void reset();
    static Status getStatus();
    static DisconnectReason getDisconnectReason();
    #if defined(ARDUINO_ARCH_ESP8266)
    static void onEvent(System_Event_t *evt);
    #elif defined(ARDUINO_ARCH_ESP32)
    static void onEvent(WiFiEvent_t event, WiFiEventInfo_t info);
    #endif
  protected:
    static DisconnectReason convertDisconnectReason(uint8_t reason);
    static bool useDhcp;
  };
 }
@@ -1,476 +0,0 @@
 #if defined(ARDUINO_ARCH_ESP8266)
 #include <ESP8266WiFi.h>
 #include "lwip/etharp.h"
 #elif defined(ARDUINO_ARCH_ESP32)
 #include <WiFi.h>
 #include <esp_wifi.h>
 #endif
 #include <NetworkConnection.h>
 namespace NetworkUtils {
  class NetworkMgr {
  public:
    typedef std::function<void()> YieldCallback;
    typedef std::function<void(unsigned int)> DelayCallback;
    NetworkMgr() {
      NetworkConnection::setup(this->useDhcp);
      this->resetWifi();
    }
    NetworkMgr* setYieldCallback(YieldCallback callback = nullptr) {
      this->yieldCallback = callback;
      return this;
    }
    NetworkMgr* setDelayCallback(DelayCallback callback = nullptr) {
      this->delayCallback = callback;
      return this;
    }
    NetworkMgr* setHostname(const char* value) {
      this->hostname = value;
      return this;
    }
    NetworkMgr* setApCredentials(const char* ssid, const char* password = nullptr, byte channel = 0) {
      this->apName = ssid;
      this->apPassword = password;
      this->apChannel = channel;
      return this;
    }
    NetworkMgr* setStaCredentials(const char* ssid = nullptr, const char* password = nullptr, byte channel = 0) {
      this->staSsid = ssid;
      this->staPassword = password;
      this->staChannel = channel;
      return this;
    }
    NetworkMgr* setUseDhcp(bool value) {
      this->useDhcp = value;
      NetworkConnection::setup(this->useDhcp);
      return this;
    }
    NetworkMgr* setStaticConfig(const char* ip, const char* gateway, const char* subnet, const char* dns) {
      this->staticIp.fromString(ip);
      this->staticGateway.fromString(gateway);
      this->staticSubnet.fromString(subnet);
      this->staticDns.fromString(dns);
      return this;
    }
    NetworkMgr* setStaticConfig(IPAddress& ip, IPAddress& gateway, IPAddress& subnet, IPAddress& dns) {
      this->staticIp = ip;
      this->staticGateway = gateway;
      this->staticSubnet = subnet;
      this->staticDns = dns;
      return this;
    }
    bool hasStaCredentials() {
      return this->staSsid != nullptr;
    }
    bool isConnected() {
      return this->isStaEnabled() && NetworkConnection::getStatus() == NetworkConnection::Status::CONNECTED;
    }
    bool isConnecting() {
      return this->isStaEnabled() && NetworkConnection::getStatus() == NetworkConnection::Status::CONNECTING;
    }
    bool isStaEnabled() {
      return (WiFi.getMode() & WIFI_STA) != 0;
    }
    bool isApEnabled() {
      return (WiFi.getMode() & WIFI_AP) != 0;
    }
    bool hasApClients() {
      if (!this->isApEnabled()) {
        return false;
      }
      return WiFi.softAPgetStationNum() > 0;
    }
    short int getRssi() {
      return WiFi.RSSI();
    }
    IPAddress getApIp() {
      return WiFi.softAPIP();
    }
    IPAddress getStaIp() {
      return WiFi.localIP();
    }
    IPAddress getStaSubnet() {
      return WiFi.subnetMask();
    }
    IPAddress getStaGateway() {
      return WiFi.gatewayIP();
    }
    IPAddress getStaDns() {
      return WiFi.dnsIP();
    }
    String getStaMac() {
      return WiFi.macAddress();
    }
    const char* getStaSsid() {
      return this->staSsid;
    }
    const char* getStaPassword() {
      return this->staPassword;
    }
    byte getStaChannel() {
      return this->staChannel;
    }
    bool resetWifi() {
      // set policy manual for work 13 ch
      {
        #ifdef ARDUINO_ARCH_ESP8266
        wifi_country_t country = {"CN", 1, 13, WIFI_COUNTRY_POLICY_AUTO};
        wifi_set_country(&country);
        #elif defined(ARDUINO_ARCH_ESP32)
        const wifi_country_t country = {"CN", 1, 13, CONFIG_ESP32_PHY_MAX_WIFI_TX_POWER, WIFI_COUNTRY_POLICY_AUTO};
        esp_wifi_set_country(&country);
        #endif
      }
      WiFi.persistent(false);
      #if !defined(ESP_ARDUINO_VERSION_MAJOR) || ESP_ARDUINO_VERSION_MAJOR < 3
      WiFi.setAutoConnect(false);
      #endif
      WiFi.setAutoReconnect(false);
      #ifdef ARDUINO_ARCH_ESP8266
      WiFi.setSleepMode(WIFI_NONE_SLEEP);
      #elif defined(ARDUINO_ARCH_ESP32)
      WiFi.setSleep(USE_BLE ? WIFI_PS_MIN_MODEM : WIFI_PS_NONE);
      #endif
      WiFi.softAPdisconnect();
      #ifdef ARDUINO_ARCH_ESP8266
      /*if (wifi_softap_dhcps_status() == DHCP_STARTED) {
        wifi_softap_dhcps_stop();
      }*/
      #endif
      WiFi.disconnect(false, true);
      #ifdef ARDUINO_ARCH_ESP8266
      /*if (wifi_station_dhcpc_status() == DHCP_STARTED) {
        wifi_station_dhcpc_stop();
      }*/
      wifi_station_dhcpc_set_maxtry(5);
      #endif
      #if defined(ARDUINO_ARCH_ESP32) && ESP_ARDUINO_VERSION_MAJOR < 3
      // Nothing. Because memory leaks when turn off WiFi on ESP32 SDK < 3.0.0
      return true;
      #else
      return WiFi.mode(WIFI_OFF);
      #endif
    }
    void reconnect() {
      this->reconnectFlag = true;
    }
    bool connect(bool force = false, unsigned int timeout = 1000u) {
      if (this->isConnected() && !force) {
        return true;
      }
      if (force && !this->isApEnabled()) {
        this->resetWifi();
        NetworkConnection::reset();
      } else {
        /*#ifdef ARDUINO_ARCH_ESP8266
        if (wifi_station_dhcpc_status() == DHCP_STARTED) {
          wifi_station_dhcpc_stop();
        }
        #endif*/
        this->disconnect();
      }
      if (!this->hasStaCredentials()) {
        return false;
      }
      this->delayCallback(250);
      #ifdef ARDUINO_ARCH_ESP32
      if (this->setWifiHostname(this->hostname)) {
        Log.straceln(FPSTR(L_NETWORK), F("Set hostname '%s': success"), this->hostname);
      } else {
        Log.serrorln(FPSTR(L_NETWORK), F("Set hostname '%s': fail"), this->hostname);
      }
      #endif
      if (!WiFi.mode((WiFiMode_t)(WiFi.getMode() | WIFI_STA))) {
        return false;
      }
      this->delayCallback(250);
      #ifdef ARDUINO_ARCH_ESP8266
      if (this->setWifiHostname(this->hostname)) {
        Log.straceln(FPSTR(L_NETWORK), F("Set hostname '%s': success"), this->hostname);
      } else {
        Log.serrorln(FPSTR(L_NETWORK), F("Set hostname '%s': fail"), this->hostname);
      }
      this->delayCallback(250);
      #endif
      #ifdef ARDUINO_ARCH_ESP32
      WiFi.setScanMethod(WIFI_ALL_CHANNEL_SCAN);
      WiFi.setSortMethod(WIFI_CONNECT_AP_BY_SIGNAL);
      #endif
      if (!this->useDhcp) {
        WiFi.begin(this->staSsid, this->staPassword, this->staChannel, nullptr, false);
        WiFi.config(this->staticIp, this->staticGateway, this->staticSubnet, this->staticDns);
        WiFi.reconnect();
      } else {
        WiFi.begin(this->staSsid, this->staPassword, this->staChannel, nullptr, true);
      }
      unsigned long beginConnectionTime = millis();
      while (millis() - beginConnectionTime < timeout) {
        this->delayCallback(100);
        NetworkConnection::Status status = NetworkConnection::getStatus();
        if (status != NetworkConnection::Status::CONNECTING && status != NetworkConnection::Status::NONE) {
          return status == NetworkConnection::Status::CONNECTED;
        }
      }
      return false;
    }
    void disconnect() {
      #ifdef ARDUINO_ARCH_ESP32
      WiFi.disconnectAsync(false, true);
      const unsigned long start = millis();
      while (WiFi.isConnected() && (millis() - start) < 5000) {
        this->delayCallback(100);
      }
      #else
      WiFi.disconnect(false, true);
      #endif
    }
    void loop() {
      if (this->reconnectFlag) {
        this->delayCallback(5000);
        Log.sinfoln(FPSTR(L_NETWORK), F("Reconnecting..."));
        this->reconnectFlag = false;
        this->disconnect();
        NetworkConnection::reset();
        this->delayCallback(1000);
      } else if (this->isConnected() && !this->hasStaCredentials()) {
        Log.sinfoln(FPSTR(L_NETWORK), F("Reset"));
        this->resetWifi();
        NetworkConnection::reset();
        this->delayCallback(1000);
      } else if (this->isConnected()) {
        if (!this->connected) {
          this->connectedTime = millis();
          this->connected = true;
          Log.sinfoln(
            FPSTR(L_NETWORK),
            F("Connected, downtime: %lu s., IP: %s, RSSI: %hhd"),
            (millis() - this->disconnectedTime) / 1000,
            WiFi.localIP().toString().c_str(),
            WiFi.RSSI()
          );
        }
        if (this->isApEnabled() && millis() - this->connectedTime > this->reconnectInterval && !this->hasApClients()) {
          Log.sinfoln(FPSTR(L_NETWORK), F("Stop AP because STA connected"));
          WiFi.mode(WIFI_STA);
          return;
        }
        #ifdef ARDUINO_ARCH_ESP8266
        if (millis() - this->prevArpGratuitous > 60000) {
          this->stationKeepAliveNow();
          this->prevArpGratuitous = millis();
        }
        #endif
      } else {
        if (this->connected) {
          this->disconnectedTime = millis();
          this->connected = false;
          Log.sinfoln(
            FPSTR(L_NETWORK),
            F("Disconnected, reason: %d, uptime: %lu s."),
            NetworkConnection::getDisconnectReason(),
            (millis() - this->connectedTime) / 1000
          );
        }
        if (!this->hasStaCredentials() && !this->isApEnabled()) {
          Log.sinfoln(FPSTR(L_NETWORK), F("No STA credentials, start AP"));
          WiFi.mode(WIFI_AP_STA);
          this->delayCallback(250);
          WiFi.softAP(this->apName, this->apPassword, this->apChannel);
        } else if (!this->isApEnabled() && millis() - this->disconnectedTime > this->failedConnectTimeout) {
          Log.sinfoln(FPSTR(L_NETWORK), F("Disconnected for a long time, start AP"));
          WiFi.mode(WIFI_AP_STA);
          this->delayCallback(250);
          WiFi.softAP(this->apName, this->apPassword, this->apChannel);
        } else if (this->isConnecting() && millis() - this->prevReconnectingTime > this->resetConnectionTimeout) {
          Log.swarningln(FPSTR(L_NETWORK), F("Connection timeout, reset wifi..."));
          this->resetWifi();
          NetworkConnection::reset();
          this->delayCallback(250);
        } else if (!this->isConnecting() && this->hasStaCredentials() && (!this->prevReconnectingTime || millis() - this->prevReconnectingTime > this->reconnectInterval)) {
          Log.sinfoln(FPSTR(L_NETWORK), F("Try connect..."));
          NetworkConnection::reset();
          if (!this->connect(true, this->connectionTimeout)) {
            Log.straceln(FPSTR(L_NETWORK), F("Connection failed. Status: %d, reason: %d, raw reason: %d"), NetworkConnection::getStatus(), NetworkConnection::getDisconnectReason(), NetworkConnection::rawDisconnectReason);
          }
          this->prevReconnectingTime = millis();
        }
      }
    }
    static byte rssiToSignalQuality(short int rssi) {
      return constrain(map(rssi, -100, -50, 0, 100), 0, 100);
    }
  protected:
    const unsigned int reconnectInterval = 15000;
    const unsigned int failedConnectTimeout = 185000;
    const unsigned int connectionTimeout = 5000;
    const unsigned int resetConnectionTimeout = 90000;
    YieldCallback yieldCallback = []() {
      ::yield();
    };
    DelayCallback delayCallback = [](unsigned int time) {
      ::delay(time);
    };
    const char* hostname = "esp";
    const char* apName = "ESP";
    const char* apPassword = nullptr;
    byte apChannel = 1;
    const char* staSsid = nullptr;
    const char* staPassword = nullptr;
    byte staChannel = 0;
    bool useDhcp = true;
    IPAddress staticIp;
    IPAddress staticGateway;
    IPAddress staticSubnet;
    IPAddress staticDns;
    bool connected = false;
    bool reconnectFlag = false;
    unsigned long prevArpGratuitous = 0;
    unsigned long prevReconnectingTime = 0;
    unsigned long connectedTime = 0;
    unsigned long disconnectedTime = 0;
    bool setWifiHostname(const char* hostname) {
      if (!this->isHostnameValid(hostname)) {
        return false;
      }
      if (strcmp(WiFi.getHostname(), hostname) == 0) {
        return true;
      }
      return WiFi.setHostname(hostname);
    }
    #ifdef ARDUINO_ARCH_ESP8266
    /**
     * @brief
     * https://github.com/arendst/Tasmota/blob/e6515883f0ee5451931b6280ff847b117de5a231/tasmota/tasmota_support/support_wifi.ino#L1196
     */
    static void stationKeepAliveNow(void) {
      for (netif* interface = netif_list; interface != nullptr; interface = interface->next) {
        if (
          (interface->flags & NETIF_FLAG_LINK_UP)
          && (interface->flags & NETIF_FLAG_UP)
          && interface->num == STATION_IF
          && (!ip4_addr_isany_val(*netif_ip4_addr(interface)))
          ) {
          etharp_gratuitous(interface);
          break;
        }
      }
    }
    #endif
    /**
     * @brief check RFC compliance
     *
     * @param value
     * @return true
     * @return false
     */
    static bool isHostnameValid(const char* value) {
      size_t len = strlen(value);
      if (len > 24) {
        return false;
      } else if (value[len - 1] == '-') {
        return false;
      }
      for (size_t i = 0; i < len; i++) {
        if (!isalnum(value[i]) && value[i] != '-') {
          return false;
        }
      }
      return true;
    }
  };
 }
@@ -1,225 +0,0 @@
 #include <FS.h>
 class DynamicPage : public RequestHandler {
 public:
  typedef std::function<bool(HTTPMethod, const String&)> CanHandleCallback;
  typedef std::function<bool()> BeforeSendCallback;
  typedef std::function<String(const char*)> TemplateCallback;
  DynamicPage(const char* uri, FS* fs, const char* path, const char* cacheHeader = nullptr) {
    this->uri = uri;
    this->fs = fs;
    this->path = path;
    this->cacheHeader = cacheHeader;
  }
  DynamicPage* setCanHandleCallback(CanHandleCallback callback = nullptr) {
    this->canHandleCallback = callback;
    return this;
  }
  DynamicPage* setBeforeSendCallback(BeforeSendCallback callback = nullptr) {
    this->beforeSendCallback = callback;
    return this;
  }
  DynamicPage* setTemplateCallback(TemplateCallback callback = nullptr) {
    this->templateCallback = callback;
    return this;
  }
  #if defined(ARDUINO_ARCH_ESP32)
  bool canHandle(WebServer &server, HTTPMethod method, const String &uri) override {
    return this->canHandle(method, uri);
  }
  #endif
  bool canHandle(HTTPMethod method, const String& uri) override {
    return uri.equals(this->uri) && (!this->canHandleCallback || this->canHandleCallback(method, uri));
  }
  bool handle(WebServer& server, HTTPMethod method, const String& uri) override {
    if (!this->canHandle(method, uri)) {
      return false;
    }
    if (this->beforeSendCallback && !this->beforeSendCallback()) {
      return true;
    }
    File file = this->fs->open(this->path, "r");
    if (!file) {
      return false;
    } else if (file.isDirectory()) {
      file.close();
      return false;
    }
    if (this->cacheHeader != nullptr) {
      server.sendHeader("Cache-Control", this->cacheHeader);
    }
    #ifdef ARDUINO_ARCH_ESP8266
    if (!server.chunkedResponseModeStart(200, F("text/html"))) {
      server.send(505, F("text/html"), F("HTTP1.1 required"));
      return true;
    }
    #else
    server.setContentLength(CONTENT_LENGTH_UNKNOWN);
    server.send(200, "text/html", emptyString);
    #endif
    uint8_t* argStartPos = nullptr;
    uint8_t* argEndPos = nullptr;
    uint8_t argName[16];
    size_t sizeArgName = 0;
    bool argNameProcess = false;
    while (file.available()) {
      uint8_t buf[64];
      size_t length = file.read(buf, sizeof(buf));
      size_t offset = 0;
      if (argNameProcess) {
        argEndPos = (uint8_t*) memchr(buf, '}', length);
        if (argEndPos != nullptr) {
          size_t fullSizeArgName = sizeArgName + (argEndPos - buf);
          if (fullSizeArgName < sizeof(argName)) {
            // copy full arg name
            if (argEndPos - buf > 0) {
              memcpy(argName + sizeArgName, buf, argEndPos - buf);
            }
            argName[fullSizeArgName] = '\0';
            // send arg value
            String argValue = this->templateCallback((const char*) argName);
            if (argValue.length()) {
              server.sendContent(argValue.c_str());
            } else if (fullSizeArgName > 0) {
              server.sendContent("{");
              server.sendContent((const char*) argName);
              server.sendContent("}");
            }
            offset = size_t(argEndPos - buf + 1);
            sizeArgName = 0;
            argNameProcess = false;
          }
        }
        if (argNameProcess) {
          server.sendContent("{");
          if (sizeArgName > 0) {
            argName[sizeArgName] = '\0';
            server.sendContent((const char*) argName);
          }
          argNameProcess = false;
        }
      }
      do {
        uint8_t* currentBuf = buf + offset;
        size_t currentLength = length - offset;
        argStartPos = (uint8_t*) memchr(currentBuf, '{', currentLength);
        // send all content
        if (argStartPos == nullptr) {
          if (currentLength > 0) {
            server.sendContent((const char*) currentBuf, currentLength);
          }
          break;
        }
        argEndPos = (uint8_t*) memchr(argStartPos, '}', length - (argStartPos - buf));
        if (argEndPos != nullptr) {
          sizeArgName = argEndPos - argStartPos - 1;
          // send all content if arg len > space
          if (sizeArgName >= sizeof(argName)) {
            if (currentLength > 0) {
              server.sendContent((const char*) currentBuf, currentLength);
            }
            break;
          }
          // arg name
          memcpy(argName, argStartPos + 1, sizeArgName);
          argName[sizeArgName] = '\0';
          // send arg value
          String argValue = this->templateCallback((const char*) argName);
          if (argValue.length()) {
            // send content before var
            if (argStartPos - buf > 0) {
              server.sendContent((const char*) currentBuf, argStartPos - buf);
            }
            server.sendContent(argValue.c_str());
          } else {
            server.sendContent((const char*) currentBuf, argEndPos - currentBuf + 1);
          }
          offset = size_t(argEndPos - currentBuf + 1);
        } else {
          sizeArgName = length - size_t(argStartPos - currentBuf) - 1;
          // send all content if arg len > space
          if (sizeArgName >= sizeof(argName)) {
            if (currentLength) {
              server.sendContent((const char*) currentBuf, currentLength);
            }
            break;
          }
          // send content before var
          if (argStartPos - buf > 0) {
            server.sendContent((const char*) currentBuf, argStartPos - buf);
          }
          // copy arg name chunk
          if (sizeArgName > 0) {
            memcpy(argName, argStartPos + 1, sizeArgName);
          }
          argNameProcess = true;
          break;
        }
      } while(true);
    }
    file.close();
    #ifdef ARDUINO_ARCH_ESP8266
    server.chunkedResponseFinalize();
    #else
    server.sendContent(emptyString);
    #endif
    return true;
  }
 protected:
  FS* fs = nullptr;
  CanHandleCallback canHandleCallback;
  BeforeSendCallback beforeSendCallback;
  TemplateCallback templateCallback;
  String eTag;
  const char* uri = nullptr;
  const char* path = nullptr;
  const char* cacheHeader = nullptr;
 };
@@ -1,107 +0,0 @@
 #include <FS.h>
 #include <detail/mimetable.h>
 using namespace mime;
 class StaticPage : public RequestHandler {
 public:
  typedef std::function<bool(HTTPMethod, const String&)> CanHandleCallback;
  typedef std::function<bool()> BeforeSendCallback;
  StaticPage(const char* uri, FS* fs, const char* path, const char* cacheHeader = nullptr) {
    this->uri = uri;
    this->fs = fs;
    this->path = path;
    this->cacheHeader = cacheHeader;
  }
  StaticPage* setCanHandleCallback(CanHandleCallback callback = nullptr) {
    this->canHandleCallback = callback;
    return this;
  }
  StaticPage* setBeforeSendCallback(BeforeSendCallback callback = nullptr) {
    this->beforeSendCallback = callback;
    return this;
  }
  #if defined(ARDUINO_ARCH_ESP32)
  bool canHandle(WebServer &server, HTTPMethod method, const String &uri) override {
    return this->canHandle(method, uri);
  }
  #endif
  bool canHandle(HTTPMethod method, const String& uri) override {
    return method == HTTP_GET && uri.equals(this->uri) && (!this->canHandleCallback || this->canHandleCallback(method, uri));
  }
  bool handle(WebServer& server, HTTPMethod method, const String& uri) override {
    if (!this->canHandle(method, uri)) {
      return false;
    }
    if (this->beforeSendCallback && !this->beforeSendCallback()) {
      return true;
    }
    #if defined(ARDUINO_ARCH_ESP8266)
    if (server._eTagEnabled) {
      if (server._eTagFunction) {
        this->eTag = (server._eTagFunction)(*this->fs, this->path);
      } else  if (this->eTag.isEmpty()) {
        this->eTag = esp8266webserver::calcETag(*this->fs, this->path);
      }
      if (server.header("If-None-Match").equals(this->eTag.c_str())) {
        server.send(304);
        return true;
      }
    }
    #endif
    if (!this->path.endsWith(FPSTR(mimeTable[gz].endsWith)) && !this->fs->exists(path))  {
      String pathWithGz = this->path + FPSTR(mimeTable[gz].endsWith);
      if (this->fs->exists(pathWithGz)) {
        this->path += FPSTR(mimeTable[gz].endsWith);
      }
    }
    File file = this->fs->open(this->path, "r");
    if (!file) {
      return false;
    } else if (file.isDirectory()) {
      file.close();
      return false;
    }
    if (this->cacheHeader != nullptr) {
      server.sendHeader("Cache-Control", this->cacheHeader);
    }
    #if defined(ARDUINO_ARCH_ESP8266)
    if (server._eTagEnabled && this->eTag.length() > 0) {
      server.sendHeader("ETag", this->eTag);
    }
    server.streamFile(file, F("text/html"), method);
    #else
    server.streamFile(file, F("text/html"), 200);
    #endif
    return true;
  }
 protected:
  FS* fs = nullptr;
  CanHandleCallback canHandleCallback;
  BeforeSendCallback beforeSendCallback;
  String eTag;
  const char* uri = nullptr;
  String path;
  const char* cacheHeader = nullptr;
 };
@@ -1,214 +0,0 @@
 #include <Arduino.h>
 class UpgradeHandler : public RequestHandler {
 public:
  enum class UpgradeType {
    FIRMWARE = 0,
    FILESYSTEM = 1
  };
  enum class UpgradeStatus {
    NONE,
    NO_FILE,
    SUCCESS,
    PROHIBITED,
    ABORTED,
    ERROR_ON_START,
    ERROR_ON_WRITE,
    ERROR_ON_FINISH
  };
  typedef struct {
    UpgradeType type;
    UpgradeStatus status;
    String error;
  } UpgradeResult;
  typedef std::function<bool(HTTPMethod, const String&)> CanHandleCallback;
  typedef std::function<bool(const String&)> CanUploadCallback;
  typedef std::function<bool(UpgradeType)> BeforeUpgradeCallback;
  typedef std::function<void(const UpgradeResult&, const UpgradeResult&)> AfterUpgradeCallback;
  UpgradeHandler(const char* uri) {
    this->uri = uri;
  }
  UpgradeHandler* setCanHandleCallback(CanHandleCallback callback = nullptr) {
    this->canHandleCallback = callback;
    return this;
  }
  UpgradeHandler* setCanUploadCallback(CanUploadCallback callback = nullptr) {
    this->canUploadCallback = callback;
    return this;
  }
  UpgradeHandler* setBeforeUpgradeCallback(BeforeUpgradeCallback callback = nullptr) {
    this->beforeUpgradeCallback = callback;
    return this;
  }
  UpgradeHandler* setAfterUpgradeCallback(AfterUpgradeCallback callback = nullptr) {
    this->afterUpgradeCallback = callback;
    return this;
  }
  #if defined(ARDUINO_ARCH_ESP32)
  bool canHandle(WebServer &server, HTTPMethod method, const String &uri) override {
    return this->canHandle(method, uri);
  }
  #endif
  bool canHandle(HTTPMethod method, const String& uri) override {
    return method == HTTP_POST && uri.equals(this->uri) && (!this->canHandleCallback || this->canHandleCallback(method, uri));
  }
  #if defined(ARDUINO_ARCH_ESP32)
  bool canUpload(WebServer &server, const String &uri) override {
    return this->canUpload(uri);
  }
  #endif
  bool canUpload(const String& uri) override {
    return uri.equals(this->uri) && (!this->canUploadCallback || this->canUploadCallback(uri));
  }
  bool handle(WebServer& server, HTTPMethod method, const String& uri) override {
    if (this->afterUpgradeCallback) {
      this->afterUpgradeCallback(this->firmwareResult, this->filesystemResult);
    }
    this->firmwareResult.status = UpgradeStatus::NONE;
    this->firmwareResult.error.clear();
    this->filesystemResult.status = UpgradeStatus::NONE;
    this->filesystemResult.error.clear();
    return true;
  }
  void upload(WebServer& server, const String& uri, HTTPUpload& upload) override {
    UpgradeResult* result;
    if (upload.name.equals("firmware")) {
      result = &this->firmwareResult;
    } else if (upload.name.equals("filesystem")) {
      result = &this->filesystemResult;
    } else {
      return;
    }
    if (result->status != UpgradeStatus::NONE) {
      return;
    }
    if (this->beforeUpgradeCallback && !this->beforeUpgradeCallback(result->type)) {
      result->status = UpgradeStatus::PROHIBITED;
      return;
    }
    if (!upload.filename.length()) {
      result->status = UpgradeStatus::NO_FILE;
      return;
    }
    if (upload.status == UPLOAD_FILE_START) {
      // reset
      if (Update.isRunning()) {
        Update.end(false);
        Update.clearError();
      }
      bool begin = false;
      #ifdef ARDUINO_ARCH_ESP8266
      Update.runAsync(true);
      if (result->type == UpgradeType::FIRMWARE) {
        begin = Update.begin((ESP.getFreeSketchSpace() - 0x1000) & 0xFFFFF000, U_FLASH);
      } else if (result->type == UpgradeType::FILESYSTEM) {
        close_all_fs();
        begin = Update.begin((size_t)FS_end - (size_t)FS_start, U_FS);
      }
      #elif defined(ARDUINO_ARCH_ESP32)
      if (result->type == UpgradeType::FIRMWARE) {
        begin = Update.begin(UPDATE_SIZE_UNKNOWN, U_FLASH);
      } else if (result->type == UpgradeType::FILESYSTEM) {
        begin = Update.begin(UPDATE_SIZE_UNKNOWN, U_SPIFFS);
      }
      #endif
      if (!begin || Update.hasError()) {
        result->status = UpgradeStatus::ERROR_ON_START;
        #ifdef ARDUINO_ARCH_ESP8266
        result->error = Update.getErrorString();
        #else
        result->error = Update.errorString();
        #endif
        Log.serrorln(FPSTR(L_PORTAL_OTA), F("File '%s', on start: %s"), upload.filename.c_str(), result->error.c_str());
        return;
      }
      Log.sinfoln(FPSTR(L_PORTAL_OTA), F("File '%s', started"), upload.filename.c_str());
    } else if (upload.status == UPLOAD_FILE_WRITE) {
      if (Update.write(upload.buf, upload.currentSize) != upload.currentSize) {
        Update.end(false);
        result->status = UpgradeStatus::ERROR_ON_WRITE;
        #ifdef ARDUINO_ARCH_ESP8266
        result->error = Update.getErrorString();
        #else
        result->error = Update.errorString();
        #endif
        Log.serrorln(
          FPSTR(L_PORTAL_OTA),
          F("File '%s', on writing %d bytes: %s"),
          upload.filename.c_str(), upload.totalSize, result->error.c_str()
        );
      } else {
        Log.sinfoln(FPSTR(L_PORTAL_OTA), F("File '%s', writed %d bytes"), upload.filename.c_str(), upload.totalSize);
      }
    } else if (upload.status == UPLOAD_FILE_END) {
      if (Update.end(true)) {
        result->status = UpgradeStatus::SUCCESS;
        Log.sinfoln(FPSTR(L_PORTAL_OTA), F("File '%s': finish"), upload.filename.c_str());
      } else {
        result->status = UpgradeStatus::ERROR_ON_FINISH;
        #ifdef ARDUINO_ARCH_ESP8266
        result->error = Update.getErrorString();
        #else
        result->error = Update.errorString();
        #endif
        Log.serrorln(FPSTR(L_PORTAL_OTA), F("File '%s', on finish: %s"), upload.filename.c_str(), result->error);
      }
    } else if (upload.status == UPLOAD_FILE_ABORTED) {
      Update.end(false);
      result->status = UpgradeStatus::ABORTED;
      Log.serrorln(FPSTR(L_PORTAL_OTA), F("File '%s': aborted"), upload.filename.c_str());
    }
  }
 protected:
  CanHandleCallback canHandleCallback;
  CanUploadCallback canUploadCallback;
  BeforeUpgradeCallback beforeUpgradeCallback;
  AfterUpgradeCallback afterUpgradeCallback;
  const char* uri = nullptr;
  UpgradeResult firmwareResult{UpgradeType::FIRMWARE, UpgradeStatus::NONE};
  UpgradeResult filesystemResult{UpgradeType::FILESYSTEM, UpgradeStatus::NONE};
 };
@@ -1,4 +0,0 @@
 /*
  This file is needed by the Arduino IDE because the ino file needs to be named as the directory name.
  Don't worry, the Arduino compiler will "merge" all files, including src/main.cpp
 */
@@ -1,17 +0,0 @@
 {
  "name": "otgateway",
  "scripts": {
    "test": "echo \"Error: no test specified\" && exit 1"
  },
  "devDependencies": {
    "cssnano": "^7.0.2",
    "cssnano-preset-advanced": "^7.0.2",
    "gulp": "^5.0.0",
    "gulp-concat": "^2.6.1",
    "gulp-gzip": "^1.4.2",
    "gulp-html-minifier-terser": "^7.1.0",
    "gulp-jsonminify": "^1.1.0",
    "gulp-postcss": "^10.0.0",
    "gulp-terser": "^2.1.0"
  }
 }
@@ -1,298 +0,0 @@
 ; PlatformIO Project Configuration File
 ;
 ;   Build options: build flags, source filter
 ;   Upload options: custom upload port, speed and extra flags
 ;   Library options: dependencies, extra library storages
 ;   Advanced options: extra scripting
 ;
 ; Please visit documentation for the other options and examples
 ; https://docs.platformio.org/page/projectconf.html
 [platformio]
 ;extra_configs = secrets.ini
 extra_configs = secrets.default.ini
 core_dir = .pio
 [env]
 version = 1.4.6
 framework = arduino
 lib_deps = 
 	bblanchon/ArduinoJson@^7.1.0
 	;ihormelnyk/OpenTherm Library@^1.1.5
 	https://github.com/ihormelnyk/opentherm_library#master
 	;arduino-libraries/ArduinoMqttClient@^0.1.8
 	https://github.com/Laxilef/ArduinoMqttClient.git#esp32_core_310
 	lennarthennigs/ESP Telnet@^2.2
 	gyverlibs/FileData@^1.0.2
 	gyverlibs/GyverPID@^3.3.2
 	gyverlibs/GyverBlinker@^1.1.1
 	https://github.com/pstolarz/Arduino-Temperature-Control-Library.git#OneWireNg
 	laxilef/TinyLogger@^1.1.1
 build_type = ${secrets.build_type}
 build_flags = 
 	-D PIO_FRAMEWORK_ARDUINO_LWIP2_LOW_MEMORY
 	;-D PIO_FRAMEWORK_ARDUINO_LWIP2_HIGHER_BANDWIDTH_LOW_FLASH
 	-D PIO_FRAMEWORK_ARDUINO_ESPRESSIF_SDK305
 	-mtext-section-literals
 	-D MQTT_CLIENT_STD_FUNCTION_CALLBACK=1
 	;-D DEBUG_ESP_CORE -D DEBUG_ESP_WIFI -D DEBUG_ESP_HTTP_SERVER -D DEBUG_ESP_PORT=Serial
 	-D BUILD_VERSION='"${this.version}"'
 	-D BUILD_ENV='"$PIOENV"'
 	-D DEFAULT_SERIAL_ENABLE=${secrets.serial_enable}
 	-D DEFAULT_SERIAL_BAUD=${secrets.serial_baud}
 	-D DEFAULT_TELNET_ENABLE=${secrets.telnet_enable}
 	-D DEFAULT_TELNET_PORT=${secrets.telnet_port}
 	-D DEFAULT_LOG_LEVEL=${secrets.log_level}
 	-D DEFAULT_HOSTNAME='"${secrets.hostname}"'
 	-D DEFAULT_AP_SSID='"${secrets.ap_ssid}"'
 	-D DEFAULT_AP_PASSWORD='"${secrets.ap_password}"'
 	-D DEFAULT_STA_SSID='"${secrets.sta_ssid}"'
 	-D DEFAULT_STA_PASSWORD='"${secrets.sta_password}"'
 	-D DEFAULT_PORTAL_LOGIN='"${secrets.portal_login}"'
 	-D DEFAULT_PORTAL_PASSWORD='"${secrets.portal_password}"'
 	-D DEFAULT_MQTT_SERVER='"${secrets.mqtt_server}"'
 	-D DEFAULT_MQTT_PORT=${secrets.mqtt_port}
 	-D DEFAULT_MQTT_USER='"${secrets.mqtt_user}"'
 	-D DEFAULT_MQTT_PASSWORD='"${secrets.mqtt_password}"'
 	-D DEFAULT_MQTT_PREFIX='"${secrets.mqtt_prefix}"'
 upload_speed = 921600
 monitor_speed = 115200
 monitor_filters = direct
 board_build.flash_mode = dio
 board_build.filesystem = littlefs
 ; Defaults
 [esp8266_defaults]
 platform = espressif8266@^4.2.1
 lib_deps = 
 	${env.lib_deps}
 	nrwiersma/ESP8266Scheduler@^1.2
 lib_ignore = 
 extra_scripts = 
 	post:tools/build.py
 build_type = ${env.build_type}
 build_flags = ${env.build_flags}
 board_build.ldscript = eagle.flash.4m1m.ld
 [esp32_defaults]
 ;platform = espressif32@^6.7
 ;platform = https://github.com/platformio/platform-espressif32.git
 ;platform_packages = 
 ;  framework-arduinoespressif32 @ https://github.com/espressif/arduino-esp32.git#3.0.5
 ;  framework-arduinoespressif32-libs @ https://github.com/espressif/esp32-arduino-lib-builder/releases/download/idf-release_v5.1/esp32-arduino-libs-idf-release_v5.1-33fbade6.zip
 platform = https://github.com/pioarduino/platform-espressif32/releases/download/53.03.10-rc2/platform-espressif32.zip
 platform_packages =
 board_build.partitions = esp32_partitions.csv
 lib_deps =
 	${env.lib_deps}
 	laxilef/ESP32Scheduler@^1.0.1
 nimble_lib = h2zero/NimBLE-Arduino@^1.4.2
 lib_ignore = 
 extra_scripts = 
 	post:tools/esp32.py
 	post:tools/build.py
 build_type = ${env.build_type}
 build_flags = 
 	${env.build_flags}
 	-D CORE_DEBUG_LEVEL=0
 	-Wl,--wrap=esp_panic_handler
 ; Boards
 [env:d1_mini]
 platform = ${esp8266_defaults.platform}
 board = d1_mini
 lib_deps = ${esp8266_defaults.lib_deps}
 lib_ignore = ${esp8266_defaults.lib_ignore}
 extra_scripts = ${esp8266_defaults.extra_scripts}
 board_build.ldscript = ${esp8266_defaults.board_build.ldscript}
 build_type = ${esp8266_defaults.build_type}
 build_flags = 
 	${esp8266_defaults.build_flags}
 	-D DEFAULT_OT_IN_GPIO=4
 	-D DEFAULT_OT_OUT_GPIO=5
 	-D DEFAULT_SENSOR_OUTDOOR_GPIO=12
 	-D DEFAULT_SENSOR_INDOOR_GPIO=14
 	-D DEFAULT_STATUS_LED_GPIO=13
 	-D DEFAULT_OT_RX_LED_GPIO=15
 [env:d1_mini_lite]
 platform = ${esp8266_defaults.platform}
 board = d1_mini_lite
 lib_deps = ${esp8266_defaults.lib_deps}
 lib_ignore = ${esp8266_defaults.lib_ignore}
 extra_scripts = ${esp8266_defaults.extra_scripts}
 board_build.ldscript = ${esp8266_defaults.board_build.ldscript}
 build_type = ${esp8266_defaults.build_type}
 build_flags = 
 	${esp8266_defaults.build_flags}
 	-D DEFAULT_OT_IN_GPIO=4
 	-D DEFAULT_OT_OUT_GPIO=5
 	-D DEFAULT_SENSOR_OUTDOOR_GPIO=12
 	-D DEFAULT_SENSOR_INDOOR_GPIO=14
 	-D DEFAULT_STATUS_LED_GPIO=13
 	-D DEFAULT_OT_RX_LED_GPIO=15
 [env:d1_mini_pro]
 platform = ${esp8266_defaults.platform}
 board = d1_mini_pro
 lib_deps = ${esp8266_defaults.lib_deps}
 lib_ignore = ${esp8266_defaults.lib_ignore}
 extra_scripts = ${esp8266_defaults.extra_scripts}
 board_build.ldscript = ${esp8266_defaults.board_build.ldscript}
 build_type = ${esp8266_defaults.build_type}
 build_flags = 
 	${esp8266_defaults.build_flags}
 	-D DEFAULT_OT_IN_GPIO=4
 	-D DEFAULT_OT_OUT_GPIO=5
 	-D DEFAULT_SENSOR_OUTDOOR_GPIO=12
 	-D DEFAULT_SENSOR_INDOOR_GPIO=14
 	-D DEFAULT_STATUS_LED_GPIO=13
 	-D DEFAULT_OT_RX_LED_GPIO=15
 [env:nodemcu_8266]
 platform = ${esp8266_defaults.platform}
 board = nodemcuv2
 lib_deps = ${esp8266_defaults.lib_deps}
 lib_ignore = ${esp8266_defaults.lib_ignore}
 extra_scripts = ${esp8266_defaults.extra_scripts}
 board_build.ldscript = ${esp8266_defaults.board_build.ldscript}
 build_type = ${esp8266_defaults.build_type}
 build_flags = 
 	${esp8266_defaults.build_flags}
 	-D DEFAULT_OT_IN_GPIO=13
 	-D DEFAULT_OT_OUT_GPIO=15
 	-D DEFAULT_SENSOR_OUTDOOR_GPIO=12
 	-D DEFAULT_SENSOR_INDOOR_GPIO=4
 	-D DEFAULT_STATUS_LED_GPIO=2
 	-D DEFAULT_OT_RX_LED_GPIO=16
 [env:s2_mini]
 platform = ${esp32_defaults.platform}
 platform_packages = ${esp32_defaults.platform_packages}
 board = lolin_s2_mini
 board_build.partitions = ${esp32_defaults.board_build.partitions}
 lib_deps = ${esp32_defaults.lib_deps}
 lib_ignore = ${esp32_defaults.lib_ignore}
 extra_scripts = ${esp32_defaults.extra_scripts}
 build_unflags =
 	-DARDUINO_USB_MODE=1
 build_type = ${esp32_defaults.build_type}
 build_flags = 
 	${esp32_defaults.build_flags}
 	-D ARDUINO_USB_MODE=0
 	-D ARDUINO_USB_CDC_ON_BOOT=1
 	-D DEFAULT_OT_IN_GPIO=33
 	-D DEFAULT_OT_OUT_GPIO=35
 	-D DEFAULT_SENSOR_OUTDOOR_GPIO=9
 	-D DEFAULT_SENSOR_INDOOR_GPIO=7
 	-D DEFAULT_STATUS_LED_GPIO=11
 	-D DEFAULT_OT_RX_LED_GPIO=12
 [env:s3_mini] 
 platform = ${esp32_defaults.platform}
 platform_packages = ${esp32_defaults.platform_packages}
 board = lolin_s3_mini
 board_build.partitions = ${esp32_defaults.board_build.partitions}
 lib_deps = 
 	${esp32_defaults.lib_deps}
 	${esp32_defaults.nimble_lib}
 lib_ignore = ${esp32_defaults.lib_ignore}
 extra_scripts = ${esp32_defaults.extra_scripts}
 build_unflags =
 	-DARDUINO_USB_MODE=1
 build_type = ${esp32_defaults.build_type}
 build_flags = 
 	${esp32_defaults.build_flags}
 	-D ARDUINO_USB_MODE=0
 	-D ARDUINO_USB_CDC_ON_BOOT=1
 	-D USE_BLE=1
 	-D DEFAULT_OT_IN_GPIO=35
 	-D DEFAULT_OT_OUT_GPIO=36
 	-D DEFAULT_SENSOR_OUTDOOR_GPIO=13
 	-D DEFAULT_SENSOR_INDOOR_GPIO=12
 	-D DEFAULT_STATUS_LED_GPIO=11
 	-D DEFAULT_OT_RX_LED_GPIO=10
 [env:c3_mini] 
 platform = ${esp32_defaults.platform}
 platform_packages = ${esp32_defaults.platform_packages}
 board = lolin_c3_mini
 board_build.partitions = ${esp32_defaults.board_build.partitions}
 lib_deps = 
 	${esp32_defaults.lib_deps}
 	${esp32_defaults.nimble_lib}
 lib_ignore = ${esp32_defaults.lib_ignore}
 extra_scripts = ${esp32_defaults.extra_scripts}
 build_unflags = 
 	-mtext-section-literals
 build_type = ${esp32_defaults.build_type}
 build_flags = 
 	${esp32_defaults.build_flags}
 	-D USE_BLE=1
 	-D DEFAULT_OT_IN_GPIO=8
 	-D DEFAULT_OT_OUT_GPIO=10
 	-D DEFAULT_SENSOR_OUTDOOR_GPIO=0
 	-D DEFAULT_SENSOR_INDOOR_GPIO=1
 	-D DEFAULT_STATUS_LED_GPIO=4
 	-D DEFAULT_OT_RX_LED_GPIO=5
 [env:nodemcu_32]
 platform = ${esp32_defaults.platform}
 platform_packages = ${esp32_defaults.platform_packages}
 board = nodemcu-32s
 board_build.partitions = ${esp32_defaults.board_build.partitions}
 lib_deps = 
 	${esp32_defaults.lib_deps}
 	${esp32_defaults.nimble_lib}
 lib_ignore = ${esp32_defaults.lib_ignore}
 extra_scripts = ${esp32_defaults.extra_scripts}
 build_type = ${esp32_defaults.build_type}
 build_flags = 
 	${esp32_defaults.build_flags}
 	-D USE_BLE=1
 	-D DEFAULT_OT_IN_GPIO=16
 	-D DEFAULT_OT_OUT_GPIO=4
 	-D DEFAULT_SENSOR_OUTDOOR_GPIO=15
 	-D DEFAULT_SENSOR_INDOOR_GPIO=26
 	-D DEFAULT_STATUS_LED_GPIO=2
 	-D DEFAULT_OT_RX_LED_GPIO=19
 [env:d1_mini32]
 platform = ${esp32_defaults.platform}
 platform_packages = ${esp32_defaults.platform_packages}
 board = wemos_d1_mini32
 board_build.partitions = ${esp32_defaults.board_build.partitions}
 lib_deps = 
 	${esp32_defaults.lib_deps}
 	${esp32_defaults.nimble_lib}
 lib_ignore = ${esp32_defaults.lib_ignore}
 extra_scripts = ${esp32_defaults.extra_scripts}
 build_type = ${esp32_defaults.build_type}
 build_flags = 
 	${esp32_defaults.build_flags}
 	-D USE_BLE=1
 	-D DEFAULT_OT_IN_GPIO=21
 	-D DEFAULT_OT_OUT_GPIO=22
 	-D DEFAULT_SENSOR_OUTDOOR_GPIO=12
 	-D DEFAULT_SENSOR_INDOOR_GPIO=18
 	-D DEFAULT_STATUS_LED_GPIO=2
 	-D DEFAULT_OT_RX_LED_GPIO=19
 [env:esp32_c6]
 platform = ${esp32_defaults.platform}
 platform_packages = ${esp32_defaults.platform_packages}
 board = esp32-c6-devkitm-1
 board_build.partitions = ${esp32_defaults.board_build.partitions}
 lib_deps = 
 	${esp32_defaults.lib_deps}
 	;${esp32_defaults.nimble_lib}
 lib_ignore = ${esp32_defaults.lib_ignore}
 extra_scripts = ${esp32_defaults.extra_scripts}
 build_unflags = 
 	-mtext-section-literals
 build_type = ${esp32_defaults.build_type}
 build_flags = 
 	${esp32_defaults.build_flags}
 	; Currently the NimBLE library is incompatible with ESP32 C6
 	;-D USE_BLE=1
@@ -1,24 +0,0 @@
 [secrets]
 build_type = release
 serial_enable = true
 serial_baud = 115200
 telnet_enable = true
 telnet_port = 23
 log_level = 5
 hostname = opentherm
 ap_ssid = OpenTherm Gateway
 ap_password = otgateway123456
 sta_ssid = 
 sta_password = 
 portal_login = admin
 portal_password = admin
 mqtt_server = 
 mqtt_port = 1883
 mqtt_user = 
 mqtt_password = 
 mqtt_prefix = opentherm
@@ -1,132 +0,0 @@
 #pragma once
 #include <Arduino.h>
 #ifdef ARDUINO_ARCH_ESP32
  #include "esp_err.h"
 #endif
 #ifdef ARDUINO_ARCH_ESP8266
  extern "C" {
    #include <user_interface.h>
  }
  // https://github.com/espressif/ESP8266_RTOS_SDK/blob/master/components/esp8266/include/esp_attr.h
  #define _COUNTER_STRINGIFY(COUNTER) #COUNTER
  #define _SECTION_ATTR_IMPL(SECTION, COUNTER) __attribute__((section(SECTION "." _COUNTER_STRINGIFY(COUNTER))))
  #define __NOINIT_ATTR _SECTION_ATTR_IMPL(".noinit", __COUNTER__)
 #endif
 namespace CrashRecorder {
  typedef struct {
    unsigned int data[32];
    uint8_t length;
    bool continues;
  } backtrace_t;
  typedef struct {
    unsigned int data[4];
    uint8_t length;
  } epc_t;
  typedef struct {
    uint8_t core;
    size_t heap;
    unsigned long uptime;
  } ext_t;
  __NOINIT_ATTR volatile static backtrace_t backtrace;
  __NOINIT_ATTR volatile static epc_t epc;
  __NOINIT_ATTR volatile static ext_t ext;
  uint8_t backtraceMaxLength = sizeof(backtrace.data) / sizeof(*backtrace.data);
  uint8_t epcMaxLength = sizeof(epc.data) / sizeof(*epc.data);
  #ifdef ARDUINO_ARCH_ESP32
  void IRAM_ATTR panicHandler(arduino_panic_info_t *info, void *arg) {;
    ext.core = info->core;
    ext.heap = ESP.getFreeHeap();
    ext.uptime = millis() / 1000u;
    // Backtrace
    backtrace.length = info->backtrace_len < backtraceMaxLength ? info->backtrace_len : backtraceMaxLength;
    backtrace.continues = false;
    for (unsigned int i = 0; i < info->backtrace_len; i++) {
      if (i >= backtraceMaxLength) {
        backtrace.continues = true;
        break;
      }
      backtrace.data[i] = info->backtrace[i];
    }
    // EPC
    if (info->pc) {
      epc.data[0] = (unsigned int) info->pc;
      epc.length = 1;
    } else {
      epc.length = 0;
    }
  }
  #endif
  void init() {
    if (backtrace.length > backtraceMaxLength) {
      backtrace.length = 0;
    }
    if (epc.length > epcMaxLength) {
      epc.length = 0;
    }
    #ifdef ARDUINO_ARCH_ESP32
    set_arduino_panic_handler(panicHandler, nullptr);
    #endif
  }
 }
 #ifdef ARDUINO_ARCH_ESP8266
 extern "C" void custom_crash_callback(struct rst_info *info, uint32_t stack, uint32_t stack_end) {
  uint8_t _length = 0;
  CrashRecorder::ext.core = 0;
  CrashRecorder::ext.heap = ESP.getFreeHeap();
  CrashRecorder::ext.uptime = millis() / 1000u;
  // Backtrace
  CrashRecorder::backtrace.continues = false;
  uint32_t value;
  for (uint32_t i = stack; i < stack_end; i += 4) {
    value = *((uint32_t*) i);
    // keep only addresses in code area
    if ((value >= 0x40000000) && (value < 0x40300000)) {
      if (_length >= CrashRecorder::backtraceMaxLength) {
        CrashRecorder::backtrace.continues = true;
        break;
      }
      CrashRecorder::backtrace.data[_length++] = value;
    }
  }
  CrashRecorder::backtrace.length = _length;
  // EPC
  _length = 0;
  if (info->epc1 > 0) {
    CrashRecorder::epc.data[_length++] = info->epc1;
  }
  if (info->epc2 > 0) {
    CrashRecorder::epc.data[_length++] = info->epc2;
  }
  if (info->epc3 > 0) {
    CrashRecorder::epc.data[_length++] = info->epc3;
  }
  CrashRecorder::epc.length = _length;
 }
 #endif
@@ -1,590 +0,0 @@
 #include <Blinker.h>
 using namespace NetworkUtils;
 extern NetworkMgr* network;
 extern MqttTask* tMqtt;
 extern OpenThermTask* tOt;
 extern FileData fsSettings, fsNetworkSettings;
 extern ESPTelnetStream* telnetStream;
 class MainTask : public Task {
 public:
  MainTask(bool _enabled = false, unsigned long _interval = 0) : Task(_enabled, _interval) {
    this->blinker = new Blinker();
    network->setDelayCallback([this](unsigned int time) {
      this->delay(time);
    })->setYieldCallback([this]() {
      this->yield();
    });
  }
  ~MainTask() {
    delete this->blinker;
  }
 protected:
  enum class PumpStartReason {NONE, HEATING, ANTISTUCK};
  Blinker* blinker = nullptr;
  unsigned long lastHeapInfo = 0;
  unsigned int minFreeHeap = 0;
  unsigned int minMaxFreeBlockHeap = 0;
  unsigned long restartSignalTime = 0;
  bool heatingEnabled = false;
  unsigned long heatingDisabledTime = 0;
  PumpStartReason extPumpStartReason = PumpStartReason::NONE;
  unsigned long externalPumpStartTime = 0;
  bool telnetStarted = false;
  bool emergencyDetected = false;
  unsigned long emergencyFlipTime = 0;
  #if defined(ARDUINO_ARCH_ESP32)
  const char* getTaskName() override {
    return "Main";
  }
  /*BaseType_t getTaskCore() override {
    return 1;
  }*/
  int getTaskPriority() override {
    return 3;
  }
  #endif
  void setup() {}
  void loop() {
    network->loop();
    if (fsSettings.tick() == FD_WRITE) {
      Log.sinfoln(FPSTR(L_SETTINGS), F("Updated"));
    }
    if (fsNetworkSettings.tick() == FD_WRITE) {
      Log.sinfoln(FPSTR(L_NETWORK_SETTINGS), F("Updated"));
    }
    if (vars.actions.restart) {
      vars.actions.restart = false;
      this->restartSignalTime = millis();
      // save settings
      fsSettings.updateNow();
      // force save network settings
      if (fsNetworkSettings.updateNow() == FD_FILE_ERR && LittleFS.begin()) {
        fsNetworkSettings.write();
      }
      Log.sinfoln(FPSTR(L_MAIN), F("Restart signal received. Restart after 10 sec."));
    }
    vars.states.mqtt = tMqtt->isConnected();
    vars.sensors.rssi = network->isConnected() ? WiFi.RSSI() : 0;
    if (settings.system.logLevel >= TinyLogger::Level::SILENT && settings.system.logLevel <= TinyLogger::Level::VERBOSE) {
      if (Log.getLevel() != settings.system.logLevel) {
        Log.setLevel(static_cast<TinyLogger::Level>(settings.system.logLevel));
      }
    }
    if (network->isConnected()) {
      if (!this->telnetStarted && telnetStream != nullptr) {
        telnetStream->begin(23, false);
        this->telnetStarted = true;
      }
      if (settings.mqtt.enable && !tMqtt->isEnabled()) {
        tMqtt->enable();
      } else if (!settings.mqtt.enable && tMqtt->isEnabled()) {
        tMqtt->disable();
      }
      if (settings.sensors.indoor.type == SensorType::MANUAL) {
        vars.sensors.indoor.connected = !settings.mqtt.enable || vars.states.mqtt;
      }
      if (settings.sensors.outdoor.type == SensorType::MANUAL) {
        vars.sensors.outdoor.connected = !settings.mqtt.enable || vars.states.mqtt;
      }
    } else {
      if (this->telnetStarted) {
        telnetStream->stop();
        this->telnetStarted = false;
      }
      if (tMqtt->isEnabled()) {
        tMqtt->disable();
      }
      if (settings.sensors.indoor.type == SensorType::MANUAL) {
        vars.sensors.indoor.connected = false;
      }
      if (settings.sensors.outdoor.type == SensorType::MANUAL) {
        vars.sensors.outdoor.connected = false;
      }
    }
    this->yield();
    this->emergency();
    this->ledStatus();
    this->cascadeControl();
    this->externalPump();
    this->yield();
    // telnet
    if (this->telnetStarted) {
      telnetStream->loop();
      this->yield();
    }
    // anti memory leak
    for (Stream* stream : Log.getStreams()) {
      while (stream->available() > 0) {
        stream->read();
        #ifdef ARDUINO_ARCH_ESP8266
        ::delay(0);
        #endif
      }
    }
    // heap info
    this->heap();
    // restart
    if (this->restartSignalTime > 0 && millis() - this->restartSignalTime > 10000) {
      this->restartSignalTime = 0;
      ESP.restart();
    }
  }
  void heap() {
    unsigned int freeHeap = getFreeHeap();
    unsigned int maxFreeBlockHeap = getMaxFreeBlockHeap();
    if (!this->restartSignalTime && (freeHeap < 2048 || maxFreeBlockHeap < 2048)) {
      this->restartSignalTime = millis();
    }
    if (settings.system.logLevel < TinyLogger::Level::VERBOSE) {
      return;
    }
    size_t minFreeHeap = getFreeHeap(true);
    size_t minFreeHeapDiff = 0;
    if (minFreeHeap < this->minFreeHeap || this->minFreeHeap == 0) {
      minFreeHeapDiff = this->minFreeHeap - minFreeHeap;
      this->minFreeHeap = minFreeHeap;
    }
    size_t minMaxFreeBlockHeap = getMaxFreeBlockHeap(true);
    size_t minMaxFreeBlockHeapDiff = 0;
    if (minMaxFreeBlockHeap < this->minMaxFreeBlockHeap || this->minMaxFreeBlockHeap == 0) {
      minMaxFreeBlockHeapDiff = this->minMaxFreeBlockHeap - minMaxFreeBlockHeap;
      this->minMaxFreeBlockHeap = minMaxFreeBlockHeap;
    }
    if (millis() - this->lastHeapInfo > 20000 || minFreeHeapDiff > 0 || minMaxFreeBlockHeapDiff > 0) {
      Log.sverboseln(
        FPSTR(L_MAIN),
        F("Free heap size: %u of %u bytes (min: %u, diff: %u), max free block: %u (min: %u, diff: %u, frag: %hhu%%)"),
        freeHeap, getTotalHeap(), this->minFreeHeap, minFreeHeapDiff, maxFreeBlockHeap, this->minMaxFreeBlockHeap, minMaxFreeBlockHeapDiff, getHeapFrag()
      );
      this->lastHeapInfo = millis();
    }
  }
  void emergency() {
    // flags
    uint8_t emergencyFlags = 0b00000000;
    // set outdoor sensor flag
    if (settings.equitherm.enable && !vars.sensors.outdoor.connected) {
      emergencyFlags |= 0b00000001;
    }
    // set indoor sensor flag
    if (!settings.equitherm.enable && settings.pid.enable && !vars.sensors.indoor.connected) {
      emergencyFlags |= 0b00000010;
    }
    // set indoor sensor flag for OT native heating control
    if (settings.opentherm.nativeHeatingControl && !vars.sensors.indoor.connected) {
      emergencyFlags |= 0b00000100;
    }
    // if any flags is true
    if ((emergencyFlags & 0b00001111) != 0) {
      if (!this->emergencyDetected) {
        // flip flag
        this->emergencyDetected = true;
        this->emergencyFlipTime = millis();
      } else if (this->emergencyDetected && !vars.states.emergency) {
        // enable emergency
        if (millis() - this->emergencyFlipTime > (settings.emergency.tresholdTime * 1000)) {
          vars.states.emergency = true;
          Log.sinfoln(FPSTR(L_MAIN), F("Emergency mode enabled (%hhu)"), emergencyFlags);
        }
      }
    } else {
      if (this->emergencyDetected) {
        // flip flag
        this->emergencyDetected = false;
        this->emergencyFlipTime = millis();
      } else if (!this->emergencyDetected && vars.states.emergency) {
        // disable emergency
        if (millis() - this->emergencyFlipTime > (settings.emergency.tresholdTime * 1000)) {
          vars.states.emergency = false;
          Log.sinfoln(FPSTR(L_MAIN), F("Emergency mode disabled"));
        }
      }
    }
  }
  void ledStatus() {
    uint8_t errors[4];
    uint8_t errCount = 0;
    static uint8_t errPos = 0;
    static unsigned long endBlinkTime = 0;
    static bool ledOn = false;
    static uint8_t configuredGpio = GPIO_IS_NOT_CONFIGURED;
    if (settings.system.statusLedGpio != configuredGpio) {
      if (configuredGpio != GPIO_IS_NOT_CONFIGURED) {
        digitalWrite(configuredGpio, LOW);
      }
      if (GPIO_IS_VALID(settings.system.statusLedGpio)) {
        configuredGpio = settings.system.statusLedGpio;
        pinMode(configuredGpio, OUTPUT);
        digitalWrite(configuredGpio, LOW);
        this->blinker->init(configuredGpio);
      } else if (configuredGpio != GPIO_IS_NOT_CONFIGURED) {
        configuredGpio = GPIO_IS_NOT_CONFIGURED;
      }
    }
    if (configuredGpio == GPIO_IS_NOT_CONFIGURED) {
      return;
    }
    if (!network->isConnected()) {
      errors[errCount++] = 2;
    }
    if (!vars.states.otStatus) {
      errors[errCount++] = 3;
    }
    if (vars.states.fault) {
      errors[errCount++] = 4;
    }
    if (vars.states.emergency) {
      errors[errCount++] = 5;
    }
    if (this->blinker->ready()) {
      endBlinkTime = millis();
    }
    if (!this->blinker->running() && millis() - endBlinkTime >= 5000) {
      if (errCount == 0) {
        if (!ledOn) {
          digitalWrite(configuredGpio, HIGH);
          ledOn = true;
        }
        return;
      } else if (ledOn) {
        digitalWrite(configuredGpio, LOW);
        ledOn = false;
        endBlinkTime = millis();
        return;
      }
      if (errPos >= errCount) {
        errPos = 0;
        // end of error list
        this->blinker->blink(10, 50, 50);
      } else {
        this->blinker->blink(errors[errPos++], 300, 300);
      }
    }
    this->blinker->tick();
  }
  void cascadeControl() {
    static uint8_t configuredInputGpio = GPIO_IS_NOT_CONFIGURED;
    static uint8_t configuredOutputGpio = GPIO_IS_NOT_CONFIGURED;
    static bool inputTempValue = false;
    static unsigned long inputChangedTs = 0;
    static bool outputTempValue = false;
    static unsigned long outputChangedTs = 0;
    // input
    if (settings.cascadeControl.input.enable) {
      if (settings.cascadeControl.input.gpio != configuredInputGpio) {
        if (configuredInputGpio != GPIO_IS_NOT_CONFIGURED) {
          pinMode(configuredInputGpio, OUTPUT);
          digitalWrite(configuredInputGpio, LOW);
          Log.sinfoln(FPSTR(L_CASCADE_INPUT), F("Deinitialized on GPIO %hhu"), configuredInputGpio);
        }
        if (GPIO_IS_VALID(settings.cascadeControl.input.gpio)) {
          configuredInputGpio = settings.cascadeControl.input.gpio;
          pinMode(configuredInputGpio, INPUT);
          Log.sinfoln(FPSTR(L_CASCADE_INPUT), F("Initialized on GPIO %hhu"), configuredInputGpio);
        } else if (configuredInputGpio != GPIO_IS_NOT_CONFIGURED) {
          configuredInputGpio = GPIO_IS_NOT_CONFIGURED;
          Log.swarningln(FPSTR(L_CASCADE_INPUT), F("Failed initialize: GPIO %hhu is not valid!"), configuredInputGpio);
        }
      }
      if (configuredInputGpio != GPIO_IS_NOT_CONFIGURED) {
        bool value;
        if (digitalRead(configuredInputGpio) == HIGH) {
          value = true ^ settings.cascadeControl.input.invertState;
        } else {
          value = false ^ settings.cascadeControl.input.invertState;
        }
        if (value != vars.cascadeControl.input) {
          if (value != inputTempValue) {
            inputTempValue = value;
            inputChangedTs = millis();
          } else if (millis() - inputChangedTs >= settings.cascadeControl.input.thresholdTime * 1000u) {
            vars.cascadeControl.input = value;
            Log.sinfoln(
              FPSTR(L_CASCADE_INPUT),
              F("State changed to %s"),
              value ? F("TRUE") : F("FALSE")
            );
          }
        } else if (value != inputTempValue) {
          inputTempValue = value;
        }
      }
    }
    if (!settings.cascadeControl.input.enable || configuredInputGpio == GPIO_IS_NOT_CONFIGURED) {
      if (!vars.cascadeControl.input) {
        vars.cascadeControl.input = true;
        Log.sinfoln(
          FPSTR(L_CASCADE_INPUT),
          F("Disabled, state changed to %s"),
          vars.cascadeControl.input ? F("TRUE") : F("FALSE")
        );
      }
    }
    // output
    if (settings.cascadeControl.output.enable) {
      if (settings.cascadeControl.output.gpio != configuredOutputGpio) {
        if (configuredOutputGpio != GPIO_IS_NOT_CONFIGURED) {
          pinMode(configuredOutputGpio, OUTPUT);
          digitalWrite(configuredOutputGpio, LOW);
          Log.sinfoln(FPSTR(L_CASCADE_OUTPUT), F("Deinitialized on GPIO %hhu"), configuredOutputGpio);
        }
        if (GPIO_IS_VALID(settings.cascadeControl.output.gpio)) {
          configuredOutputGpio = settings.cascadeControl.output.gpio;
          pinMode(configuredOutputGpio, OUTPUT);
          digitalWrite(
            configuredOutputGpio,
            settings.cascadeControl.output.invertState
              ? HIGH 
              : LOW
          );
          Log.sinfoln(FPSTR(L_CASCADE_OUTPUT), F("Initialized on GPIO %hhu"), configuredOutputGpio);
        } else if (configuredOutputGpio != GPIO_IS_NOT_CONFIGURED) {
          configuredOutputGpio = GPIO_IS_NOT_CONFIGURED;
          Log.swarningln(FPSTR(L_CASCADE_OUTPUT), F("Failed initialize: GPIO %hhu is not valid!"), configuredOutputGpio);
        }
      }
      if (configuredOutputGpio != GPIO_IS_NOT_CONFIGURED) {
        bool value = false;
        if (settings.cascadeControl.output.onFault && vars.states.fault) {
          value = true;
        } else if (settings.cascadeControl.output.onLossConnection && !vars.states.otStatus) {
          value = true;
        } else if (settings.cascadeControl.output.onEnabledHeating && settings.heating.enable && vars.cascadeControl.input) {
          value = true;
        }
        if (value != vars.cascadeControl.output) {
          if (value != outputTempValue) {
            outputTempValue = value;
            outputChangedTs = millis();
          } else if (millis() - outputChangedTs >= settings.cascadeControl.output.thresholdTime * 1000u) {
            vars.cascadeControl.output = value;
            digitalWrite(
              configuredOutputGpio,
              vars.cascadeControl.output ^ settings.cascadeControl.output.invertState
                ? HIGH
                : LOW
            );
            Log.sinfoln(
              FPSTR(L_CASCADE_OUTPUT),
              F("State changed to %s"),
              value ? F("TRUE") : F("FALSE")
            );
          }
        } else if (value != outputTempValue) {
          outputTempValue = value;
        }
      }
    }
    if (!settings.cascadeControl.output.enable || configuredOutputGpio == GPIO_IS_NOT_CONFIGURED) {
      if (vars.cascadeControl.output) {
        vars.cascadeControl.output = false;
        if (configuredOutputGpio != GPIO_IS_NOT_CONFIGURED) {
          digitalWrite(
            configuredOutputGpio,
            vars.cascadeControl.output ^ settings.cascadeControl.output.invertState
              ? HIGH
              : LOW
          );
        }
        Log.sinfoln(
          FPSTR(L_CASCADE_OUTPUT),
          F("Disabled, state changed to %s"),
          vars.cascadeControl.output ? F("TRUE") : F("FALSE")
        );
      }
    }
  }
  void externalPump() {
    static uint8_t configuredGpio = GPIO_IS_NOT_CONFIGURED;
    if (settings.externalPump.gpio != configuredGpio) {
      if (configuredGpio != GPIO_IS_NOT_CONFIGURED) {
        digitalWrite(configuredGpio, LOW);
      }
      if (GPIO_IS_VALID(settings.externalPump.gpio)) {
        configuredGpio = settings.externalPump.gpio;
        pinMode(configuredGpio, OUTPUT);
        digitalWrite(configuredGpio, LOW);
      } else if (configuredGpio != GPIO_IS_NOT_CONFIGURED) {
        configuredGpio = GPIO_IS_NOT_CONFIGURED;
      }
    }
    if (configuredGpio == GPIO_IS_NOT_CONFIGURED) {
      if (vars.states.externalPump) {
        vars.states.externalPump = false;
        vars.parameters.extPumpLastEnableTime = millis();
        Log.sinfoln("EXTPUMP", F("Disabled: use = off"));
      }
      return;
    }
    if (!vars.states.heating && this->heatingEnabled) {
      this->heatingEnabled = false;
      this->heatingDisabledTime = millis();
    } else if (vars.states.heating && !this->heatingEnabled) {
      this->heatingEnabled = true;
    }
    if (!settings.externalPump.use) {
      if (vars.states.externalPump) {
        digitalWrite(configuredGpio, LOW);
        vars.states.externalPump = false;
        vars.parameters.extPumpLastEnableTime = millis();
        Log.sinfoln("EXTPUMP", F("Disabled: use = off"));
      }
      return;
    }
    if (vars.states.externalPump && !this->heatingEnabled) {
      if (this->extPumpStartReason == MainTask::PumpStartReason::HEATING && millis() - this->heatingDisabledTime > (settings.externalPump.postCirculationTime * 1000u)) {
        digitalWrite(configuredGpio, LOW);
        vars.states.externalPump = false;
        vars.parameters.extPumpLastEnableTime = millis();
        Log.sinfoln("EXTPUMP", F("Disabled: expired post circulation time"));
      } else if (this->extPumpStartReason == MainTask::PumpStartReason::ANTISTUCK && millis() - this->externalPumpStartTime >= (settings.externalPump.antiStuckTime * 1000u)) {
        digitalWrite(configuredGpio, LOW);
        vars.states.externalPump = false;
        vars.parameters.extPumpLastEnableTime = millis();
        Log.sinfoln("EXTPUMP", F("Disabled: expired anti stuck time"));
      }
    } else if (vars.states.externalPump && this->heatingEnabled && this->extPumpStartReason == MainTask::PumpStartReason::ANTISTUCK) {
      this->extPumpStartReason = MainTask::PumpStartReason::HEATING;
    } else if (!vars.states.externalPump && this->heatingEnabled) {
      vars.states.externalPump = true;
      this->externalPumpStartTime = millis();
      this->extPumpStartReason = MainTask::PumpStartReason::HEATING;
      digitalWrite(configuredGpio, HIGH);
      Log.sinfoln("EXTPUMP", F("Enabled: heating on"));
    } else if (!vars.states.externalPump && (vars.parameters.extPumpLastEnableTime == 0 || millis() - vars.parameters.extPumpLastEnableTime >= (settings.externalPump.antiStuckInterval * 1000ul))) {
      vars.states.externalPump = true;
      this->externalPumpStartTime = millis();
      this->extPumpStartReason = MainTask::PumpStartReason::ANTISTUCK;
      digitalWrite(configuredGpio, HIGH);
      Log.sinfoln("EXTPUMP", F("Enabled: anti stuck"));
    }
  }
 };
@@ -1,508 +0,0 @@
 #include <MqttClient.h>
 #include <MqttWiFiClient.h>
 #include <MqttWriter.h>
 #include "HaHelper.h"
 extern FileData fsSettings;
 class MqttTask : public Task {
 public:
  MqttTask(bool _enabled = false, unsigned long _interval = 0) : Task(_enabled, _interval) {
    this->wifiClient = new MqttWiFiClient();
    this->client = new MqttClient(this->wifiClient);
    this->writer = new MqttWriter(this->client, 256);
    this->haHelper = new HaHelper();
  }
  ~MqttTask() {
    delete this->haHelper;
    if (this->client != nullptr) {
      if (this->client->connected()) {
        this->client->stop();
        if (this->connected) {
          this->onDisconnect();
          this->connected = false;
        }
      }
      delete this->client;
    }
    delete this->writer;
    delete this->wifiClient;
  }
  void disable() {
    this->client->stop();
    if (this->connected) {
      this->onDisconnect();
      this->connected = false;
    }
    Task::disable();
    Log.sinfoln(FPSTR(L_MQTT), F("Disabled"));
  }
  void enable() {
    Task::enable();
    Log.sinfoln(FPSTR(L_MQTT), F("Enabled"));
  }
  inline bool isConnected() {
    return this->connected;
  }
  inline void resetPublishedSettingsTime() {
    this->prevPubSettingsTime = 0;
  }
  inline void resetPublishedVarsTime() {
    this->prevPubVarsTime = 0;
  }
 protected:
  MqttWiFiClient* wifiClient = nullptr;
  MqttClient* client = nullptr;
  HaHelper* haHelper = nullptr;
  MqttWriter* writer = nullptr;
  UnitSystem currentUnitSystem = UnitSystem::METRIC;
  bool currentHomeAssistantDiscovery = false;
  unsigned short readyForSendTime = 30000;
  unsigned long lastReconnectTime = 0;
  unsigned long connectedTime = 0;
  unsigned long disconnectedTime = 0;
  unsigned long prevPubVarsTime = 0;
  unsigned long prevPubSettingsTime = 0;
  bool connected = false;
  bool newConnection = false;
  #if defined(ARDUINO_ARCH_ESP32)
  const char* getTaskName() override {
    return "Mqtt";
  }
  /*BaseType_t getTaskCore() override {
    return 1;
  }*/
  int getTaskPriority() override {
    return 2;
  }
  #endif
  inline bool isReadyForSend() {
    return millis() - this->connectedTime > this->readyForSendTime;
  }
  void setup() {
    Log.sinfoln(FPSTR(L_MQTT), F("Started"));
    // wificlient settings
    #ifdef ARDUINO_ARCH_ESP8266
    this->wifiClient->setSync(true);
    this->wifiClient->setNoDelay(true);
    #endif
    // client settings
    this->client->setKeepAliveInterval(15000);
    this->client->setTxPayloadSize(256);
    #ifdef ARDUINO_ARCH_ESP8266
    this->client->setConnectionTimeout(1000);
    #else
    this->client->setConnectionTimeout(3000);
    #endif
    this->client->onMessage([this] (void*, size_t length) {
      String topic = this->client->messageTopic();
      if (!length || length > 2048 || !topic.length()) {
        return;
      }
      uint8_t payload[length];
      for (size_t i = 0; i < length && this->client->available(); i++) {
        payload[i] = this->client->read();
      }
      this->onMessage(topic.c_str(), payload, length);
    });
    // writer settings
    #ifdef ARDUINO_ARCH_ESP32
    this->writer->setYieldCallback([this] {
      this->delay(10);
    });
    #endif
    this->writer->setPublishEventCallback([this] (const char* topic, size_t written, size_t length, bool result) {
      Log.straceln(FPSTR(L_MQTT), F("%s publish %u of %u bytes to topic: %s"), result ? F("Successfully") : F("Failed"), written, length, topic);
      #ifdef ARDUINO_ARCH_ESP8266
      ::delay(0);
      #endif
      //this->client->poll();
      this->delay(250);
    });
    #ifdef ARDUINO_ARCH_ESP8266
    this->writer->setFlushEventCallback([this] (size_t, size_t) {
      ::delay(0);
      if (this->wifiClient->connected()) {
        this->wifiClient->flush();
      }
      ::delay(0);
    });
    #endif
    // ha helper settings
    this->haHelper->setDevicePrefix(settings.mqtt.prefix);
    this->haHelper->setDeviceVersion(BUILD_VERSION);
    this->haHelper->setDeviceModel(PROJECT_NAME);
    this->haHelper->setDeviceName(PROJECT_NAME);
    this->haHelper->setWriter(this->writer);
    sprintf(buffer, CONFIG_URL, WiFi.localIP().toString().c_str());
    this->haHelper->setDeviceConfigUrl(buffer);
  }
  void loop() {
    if (settings.mqtt.interval > 120) {
      settings.mqtt.interval = 5;
      fsSettings.update();
    }
    if (this->connected && !this->client->connected()) {
      this->connected = false;
      this->onDisconnect();
    } else if (!this->connected && millis() - this->lastReconnectTime >= MQTT_RECONNECT_INTERVAL) {
      Log.sinfoln(FPSTR(L_MQTT), F("Connecting to %s:%u..."), settings.mqtt.server, settings.mqtt.port);
      this->haHelper->setDevicePrefix(settings.mqtt.prefix);
      this->client->stop();
      this->client->setId(networkSettings.hostname);
      this->client->setUsernamePassword(settings.mqtt.user, settings.mqtt.password);
      this->client->connect(settings.mqtt.server, settings.mqtt.port);
      this->lastReconnectTime = millis();
      this->yield();
    } else if (!this->connected && this->client->connected()) {
      this->connected = true;
      this->onConnect();
    }
    if (!this->connected) {
      return;
    }
    this->client->poll();
    // delay for publish data
    if (!this->isReadyForSend()) {
      return;
    }
    #ifdef ARDUINO_ARCH_ESP8266
    ::delay(0);
    #endif
    // publish variables and status
    if (this->newConnection || millis() - this->prevPubVarsTime > (settings.mqtt.interval * 1000u)) {
      this->writer->publish(this->haHelper->getDeviceTopic("status").c_str(), "online", false);
      this->publishVariables(this->haHelper->getDeviceTopic("state").c_str());
      this->prevPubVarsTime = millis();
    }
    // publish settings
    if (this->newConnection || millis() - this->prevPubSettingsTime > (settings.mqtt.interval * 10000u)) {
      this->publishSettings(this->haHelper->getDeviceTopic("settings").c_str());
      this->prevPubSettingsTime = millis();
    }
    // publish ha entities if not published
    if (settings.mqtt.homeAssistantDiscovery) {
      if (this->newConnection || !this->currentHomeAssistantDiscovery || this->currentUnitSystem != settings.system.unitSystem) {
        this->publishHaEntities();
        this->publishNonStaticHaEntities(true);
        this->currentHomeAssistantDiscovery = true;
        this->currentUnitSystem = settings.system.unitSystem;
      } else {
        // publish non static ha entities
        this->publishNonStaticHaEntities();
      }
    } else if (this->currentHomeAssistantDiscovery) {
      this->currentHomeAssistantDiscovery = false;
    }
    if (this->newConnection) {
      this->newConnection = false;
    }
  }
  void onConnect() {
    this->connectedTime = millis();
    this->newConnection = true;
    unsigned long downtime = (millis() - this->disconnectedTime) / 1000;
    Log.sinfoln(FPSTR(L_MQTT), F("Connected (downtime: %u s.)"), downtime);
    this->client->subscribe(this->haHelper->getDeviceTopic("settings/set").c_str());
    this->client->subscribe(this->haHelper->getDeviceTopic("state/set").c_str());
  }
  void onDisconnect() {
    this->disconnectedTime = millis();
    unsigned long uptime = (millis() - this->connectedTime) / 1000;
    Log.swarningln(FPSTR(L_MQTT), F("Disconnected (reason: %d uptime: %u s.)"), this->client->connectError(), uptime);
  }
  void onMessage(const char* topic, uint8_t* payload, size_t length) {
    if (!length) {
      return;
    }
    if (settings.system.logLevel >= TinyLogger::Level::TRACE) {
      Log.strace(FPSTR(L_MQTT_MSG), F("Topic: %s\r\n>  "), topic);
      if (Log.lock()) {
        for (size_t i = 0; i < length; i++) {
          if (payload[i] == 0) {
            break;
          } else if (payload[i] == 13) {
            continue;
          } else if (payload[i] == 10) {
            Log.print("\r\n>  ");
          } else {
            Log.print((char) payload[i]);
          }
        }
        Log.print("\r\n\n");
        Log.flush();
        Log.unlock();
      }
    }
    JsonDocument doc;
    DeserializationError dErr = deserializeJson(doc, payload, length);
    if (dErr != DeserializationError::Ok) {
      Log.swarningln(FPSTR(L_MQTT_MSG), F("Error on deserialization: %s"), dErr.f_str());
      return;
    } else if (doc.isNull() || !doc.size()) {
      Log.swarningln(FPSTR(L_MQTT_MSG), F("Not valid json"));
      return;
    }
    doc.shrinkToFit();
    if (this->haHelper->getDeviceTopic("state/set").equals(topic)) {
      this->writer->publish(this->haHelper->getDeviceTopic("state/set").c_str(), nullptr, 0, true);
      if (jsonToVars(doc, vars)) {
        this->resetPublishedVarsTime();
      }
    } else if (this->haHelper->getDeviceTopic("settings/set").equals(topic)) {
      this->writer->publish(this->haHelper->getDeviceTopic("settings/set").c_str(), nullptr, 0, true);
      if (safeJsonToSettings(doc, settings)) {
        this->resetPublishedSettingsTime();
        fsSettings.update();
      }
    }
  }
  void publishHaEntities() {
    // heating
    this->haHelper->publishSwitchHeating(false);
    this->haHelper->publishSwitchHeatingTurbo(false);
    this->haHelper->publishInputHeatingHysteresis(settings.system.unitSystem);
    this->haHelper->publishInputHeatingTurboFactor(false);
    this->haHelper->publishInputHeatingMinTemp(settings.system.unitSystem);
    this->haHelper->publishInputHeatingMaxTemp(settings.system.unitSystem);
    this->haHelper->publishSensorHeatingSetpoint(settings.system.unitSystem, false);
    this->haHelper->publishSensorBoilerHeatingMinTemp(settings.system.unitSystem, false);
    this->haHelper->publishSensorBoilerHeatingMaxTemp(settings.system.unitSystem, false);
    // pid
    this->haHelper->publishSwitchPid();
    this->haHelper->publishInputPidFactorP(false);
    this->haHelper->publishInputPidFactorI(false);
    this->haHelper->publishInputPidFactorD(false);
    this->haHelper->publishInputPidDt(false);
    this->haHelper->publishInputPidMinTemp(settings.system.unitSystem, false);
    this->haHelper->publishInputPidMaxTemp(settings.system.unitSystem, false);
    // equitherm
    this->haHelper->publishSwitchEquitherm();
    this->haHelper->publishInputEquithermFactorN(false);
    this->haHelper->publishInputEquithermFactorK(false);
    this->haHelper->publishInputEquithermFactorT(false);
    // states
    this->haHelper->publishStateStatus();
    this->haHelper->publishStateEmergency();
    this->haHelper->publishStateOtStatus();
    this->haHelper->publishStateHeating();
    this->haHelper->publishStateFlame();
    this->haHelper->publishStateFault();
    this->haHelper->publishStateDiagnostic();
    this->haHelper->publishStateExtPump(false);
    // sensors
    this->haHelper->publishSensorModulation();
    this->haHelper->publishSensorPressure(settings.system.unitSystem, false);
    this->haHelper->publishSensorPower();
    this->haHelper->publishSensorFaultCode();
    this->haHelper->publishSensorDiagnosticCode();
    this->haHelper->publishSensorRssi(false);
    this->haHelper->publishSensorUptime(false);
    this->haHelper->publishOutdoorSensorConnected();
    this->haHelper->publishOutdoorSensorRssi(false);
    this->haHelper->publishOutdoorSensorBattery(false);
    this->haHelper->publishOutdoorSensorHumidity(false);
    this->haHelper->publishIndoorSensorConnected();
    this->haHelper->publishIndoorSensorRssi(false);
    this->haHelper->publishIndoorSensorBattery(false);
    this->haHelper->publishIndoorSensorHumidity(false);
    // temperatures
    this->haHelper->publishSensorHeatingTemp(settings.system.unitSystem);
    this->haHelper->publishSensorHeatingReturnTemp(settings.system.unitSystem, false);
    this->haHelper->publishSensorExhaustTemp(settings.system.unitSystem, false);
    // buttons
    this->haHelper->publishButtonRestart(false);
    this->haHelper->publishButtonResetFault();
    this->haHelper->publishButtonResetDiagnostic();
  }
  bool publishNonStaticHaEntities(bool force = false) {
    static byte _heatingMinTemp, _heatingMaxTemp, _dhwMinTemp, _dhwMaxTemp = 0;
    static bool _noRegulators, _editableOutdoorTemp, _editableIndoorTemp, _dhwPresent = false;
    bool published = false;
    bool noRegulators = !settings.opentherm.nativeHeatingControl && !settings.pid.enable && !settings.equitherm.enable;
    byte heatingMinTemp = 0;
    byte heatingMaxTemp = 0;
    bool editableOutdoorTemp = settings.sensors.outdoor.type == SensorType::MANUAL;
    bool editableIndoorTemp = settings.sensors.indoor.type == SensorType::MANUAL;
    if (noRegulators) {
      heatingMinTemp = settings.heating.minTemp;
      heatingMaxTemp = settings.heating.maxTemp;
    } else {
      heatingMinTemp = convertTemp(THERMOSTAT_INDOOR_MIN_TEMP, UnitSystem::METRIC, settings.system.unitSystem);
      heatingMaxTemp = convertTemp(THERMOSTAT_INDOOR_MAX_TEMP, UnitSystem::METRIC, settings.system.unitSystem);
    }
    if (force || _dhwPresent != settings.opentherm.dhwPresent) {
      _dhwPresent = settings.opentherm.dhwPresent;
      if (_dhwPresent) {
        this->haHelper->publishSwitchDhw(false);
        this->haHelper->publishSensorBoilerDhwMinTemp(settings.system.unitSystem, false);
        this->haHelper->publishSensorBoilerDhwMaxTemp(settings.system.unitSystem, false);
        this->haHelper->publishInputDhwMinTemp(settings.system.unitSystem);
        this->haHelper->publishInputDhwMaxTemp(settings.system.unitSystem);
        this->haHelper->publishStateDhw();
        this->haHelper->publishSensorDhwTemp(settings.system.unitSystem);
        this->haHelper->publishSensorDhwFlowRate(settings.system.unitSystem);
      } else {
        this->haHelper->deleteSwitchDhw();
        this->haHelper->deleteSensorBoilerDhwMinTemp();
        this->haHelper->deleteSensorBoilerDhwMaxTemp();
        this->haHelper->deleteInputDhwMinTemp();
        this->haHelper->deleteInputDhwMaxTemp();
        this->haHelper->deleteStateDhw();
        this->haHelper->deleteSensorDhwTemp();
        this->haHelper->deleteInputDhwTarget();
        this->haHelper->deleteClimateDhw();
        this->haHelper->deleteSensorDhwFlowRate();
      }
      published = true;
    }
    if (force || _noRegulators != noRegulators || _heatingMinTemp != heatingMinTemp || _heatingMaxTemp != heatingMaxTemp) {
      _heatingMinTemp = heatingMinTemp;
      _heatingMaxTemp = heatingMaxTemp;
      _noRegulators = noRegulators;
      this->haHelper->publishInputHeatingTarget(settings.system.unitSystem, heatingMinTemp, heatingMaxTemp, false);
      this->haHelper->publishClimateHeating(
        settings.system.unitSystem,
        heatingMinTemp,
        heatingMaxTemp,
        noRegulators ? HaHelper::TEMP_SOURCE_HEATING : HaHelper::TEMP_SOURCE_INDOOR
      );
      published = true;
    }
    if (_dhwPresent && (force || _dhwMinTemp != settings.dhw.minTemp || _dhwMaxTemp != settings.dhw.maxTemp)) {
      _dhwMinTemp = settings.dhw.minTemp;
      _dhwMaxTemp = settings.dhw.maxTemp;
      this->haHelper->publishInputDhwTarget(settings.system.unitSystem, settings.dhw.minTemp, settings.dhw.maxTemp, false);
      this->haHelper->publishClimateDhw(settings.system.unitSystem, settings.dhw.minTemp, settings.dhw.maxTemp);
      published = true;
    }
    if (force || _editableOutdoorTemp != editableOutdoorTemp) {
      _editableOutdoorTemp = editableOutdoorTemp;
      if (editableOutdoorTemp) {
        this->haHelper->deleteSensorOutdoorTemp();
        this->haHelper->publishInputOutdoorTemp(settings.system.unitSystem);
      } else {
        this->haHelper->deleteInputOutdoorTemp();
        this->haHelper->publishSensorOutdoorTemp(settings.system.unitSystem);
      }
      published = true;
    }
    if (force || _editableIndoorTemp != editableIndoorTemp) {
      _editableIndoorTemp = editableIndoorTemp;
      if (editableIndoorTemp) {
        this->haHelper->deleteSensorIndoorTemp();
        this->haHelper->publishInputIndoorTemp(settings.system.unitSystem);
      } else {
        this->haHelper->deleteInputIndoorTemp();
        this->haHelper->publishSensorIndoorTemp(settings.system.unitSystem);
      }
      published = true;
    }
    return published;
  }
  bool publishSettings(const char* topic) {
    JsonDocument doc;
    safeSettingsToJson(settings, doc);
    doc.shrinkToFit();
    return this->writer->publish(topic, doc, true);
  }
  bool publishVariables(const char* topic) {
    JsonDocument doc;
    varsToJson(vars, doc);
    doc.shrinkToFit();
    return this->writer->publish(topic, doc, true);
  }
 };
@@ -1,802 +0,0 @@
 #define PORTAL_CACHE_TIME "max-age=86400"
 #define PORTAL_CACHE (settings.system.logLevel >= TinyLogger::Level::TRACE ? nullptr : PORTAL_CACHE_TIME)
 #ifdef ARDUINO_ARCH_ESP8266
 #include <ESP8266WebServer.h>
 #include <Updater.h>
 using WebServer = ESP8266WebServer;
 #else
 #include <WebServer.h>
 #include <Update.h>
 #endif
 #include <BufferedWebServer.h>
 #include <StaticPage.h>
 #include <DynamicPage.h>
 #include <UpgradeHandler.h>
 #include <DNSServer.h>
 using namespace NetworkUtils;
 extern NetworkMgr* network;
 extern FileData fsSettings, fsNetworkSettings;
 extern MqttTask* tMqtt;
 class PortalTask : public LeanTask {
 public:
  PortalTask(bool _enabled = false, unsigned long _interval = 0) : LeanTask(_enabled, _interval) {
    this->webServer = new WebServer(80);
    this->bufferedWebServer = new BufferedWebServer(this->webServer, 32u);
    this->dnsServer = new DNSServer();
  }
  ~PortalTask() {
    delete this->bufferedWebServer;
    if (this->webServer != nullptr) {
      this->stopWebServer();
      delete this->webServer;
    }
    if (this->dnsServer != nullptr) {
      this->stopDnsServer();
      delete this->dnsServer;
    }
  }
 protected:
  const unsigned int changeStateInterval = 5000;
  WebServer* webServer = nullptr;
  BufferedWebServer* bufferedWebServer = nullptr;
  DNSServer* dnsServer = nullptr;
  bool webServerEnabled = false;
  bool dnsServerEnabled = false;
  unsigned long webServerChangeState = 0;
  unsigned long dnsServerChangeState = 0;
  #if defined(ARDUINO_ARCH_ESP32)
  const char* getTaskName() override {
    return "Portal";
  }
  /*BaseType_t getTaskCore() override {
    return 1;
  }*/
  int getTaskPriority() override {
    return 1;
  }
  #endif
  void setup() {
    this->dnsServer->setTTL(0);
    this->dnsServer->setErrorReplyCode(DNSReplyCode::NoError);
    #ifdef ARDUINO_ARCH_ESP8266
    this->webServer->enableETag(true);
    #endif
    // index page
    /*auto indexPage = (new DynamicPage("/", &LittleFS, "/pages/index.html"))
      ->setTemplateCallback([](const char* var) -> String {
        String result;
        if (strcmp(var, "ver") == 0) {
          result = BUILD_VERSION;
        }
        return result;
      });
    this->webServer->addHandler(indexPage);*/
    this->webServer->addHandler(new StaticPage("/", &LittleFS, "/pages/index.html", PORTAL_CACHE));
    // dashboard page
    auto dashboardPage = (new StaticPage("/dashboard.html", &LittleFS, "/pages/dashboard.html", PORTAL_CACHE))
      ->setBeforeSendCallback([this]() {
        if (this->isAuthRequired() && !this->webServer->authenticate(settings.portal.login, settings.portal.password)) {
          this->webServer->requestAuthentication(DIGEST_AUTH);
          return false;
        }
        return true;
      });
    this->webServer->addHandler(dashboardPage);
    // restart
    this->webServer->on("/restart.html", HTTP_GET, [this]() {
      if (this->isAuthRequired()) {
        if (!this->webServer->authenticate(settings.portal.login, settings.portal.password)) {
          this->webServer->send(401);
          return;
        }
      }
      vars.actions.restart = true;
      this->webServer->sendHeader("Location", "/");
      this->webServer->send(302);
    });
    // network settings page
    auto networkPage = (new StaticPage("/network.html", &LittleFS, "/pages/network.html", PORTAL_CACHE))
      ->setBeforeSendCallback([this]() {
        if (this->isAuthRequired() && !this->webServer->authenticate(settings.portal.login, settings.portal.password)) {
          this->webServer->requestAuthentication(DIGEST_AUTH);
          return false;
        }
        return true;
      });
    this->webServer->addHandler(networkPage);
    // settings page
    auto settingsPage = (new StaticPage("/settings.html", &LittleFS, "/pages/settings.html", PORTAL_CACHE))
      ->setBeforeSendCallback([this]() {
        if (this->isAuthRequired() && !this->webServer->authenticate(settings.portal.login, settings.portal.password)) {
          this->webServer->requestAuthentication(DIGEST_AUTH);
          return false;
        }
        return true;
      });
    this->webServer->addHandler(settingsPage);
    // upgrade page
    auto upgradePage = (new StaticPage("/upgrade.html", &LittleFS, "/pages/upgrade.html", PORTAL_CACHE))
      ->setBeforeSendCallback([this]() {
        if (this->isAuthRequired() && !this->webServer->authenticate(settings.portal.login, settings.portal.password)) {
          this->webServer->requestAuthentication(DIGEST_AUTH);
          return false;
        }
        return true;
      });
    this->webServer->addHandler(upgradePage);
    // OTA
    auto upgradeHandler = (new UpgradeHandler("/api/upgrade"))->setCanUploadCallback([this](const String& uri) {
      if (this->isAuthRequired() && !this->webServer->authenticate(settings.portal.login, settings.portal.password)) {
        this->webServer->sendHeader("Connection", "close");
        this->webServer->send(401);
        return false;
      }
      return true;
    })->setBeforeUpgradeCallback([](UpgradeHandler::UpgradeType type) -> bool {
      return true;
    })->setAfterUpgradeCallback([this](const UpgradeHandler::UpgradeResult& fwResult, const UpgradeHandler::UpgradeResult& fsResult) {
      unsigned short status = 200;
      if (fwResult.status == UpgradeHandler::UpgradeStatus::SUCCESS || fsResult.status == UpgradeHandler::UpgradeStatus::SUCCESS) {
        vars.actions.restart = true;
      } else {
        status = 400;
      }
      String response = "{\"firmware\": {\"status\": ";
      response.concat((short int) fwResult.status);
      response.concat(", \"error\": \"");
      response.concat(fwResult.error);
      response.concat("\"}, \"filesystem\": {\"status\": ");
      response.concat((short int) fsResult.status);
      response.concat(", \"error\": \"");
      response.concat(fsResult.error);
      response.concat("\"}}");
      this->webServer->send(status, "application/json", response);
    });
    this->webServer->addHandler(upgradeHandler);
    // backup
    this->webServer->on("/api/backup/save", HTTP_GET, [this]() {
      if (this->isAuthRequired()) {
        if (!this->webServer->authenticate(settings.portal.login, settings.portal.password)) {
          return this->webServer->send(401);
        }
      }
      JsonDocument networkSettingsDoc;
      networkSettingsToJson(networkSettings, networkSettingsDoc);
      networkSettingsDoc.shrinkToFit();
      JsonDocument settingsDoc;
      settingsToJson(settings, settingsDoc);
      settingsDoc.shrinkToFit();
      JsonDocument doc;
      doc["network"] = networkSettingsDoc;
      doc["settings"] = settingsDoc;
      doc.shrinkToFit();
      this->webServer->sendHeader(F("Content-Disposition"), F("attachment; filename=\"backup.json\""));
      this->bufferedWebServer->send(200, "application/json", doc);
    });
    this->webServer->on("/api/backup/restore", HTTP_POST, [this]() {
      if (this->isAuthRequired()) {
        if (!this->webServer->authenticate(settings.portal.login, settings.portal.password)) {
          return this->webServer->send(401);
        }
      }
      String plain = this->webServer->arg(0);
      Log.straceln(FPSTR(L_PORTAL_WEBSERVER), F("Request /api/backup/restore %d bytes: %s"), plain.length(), plain.c_str());
      if (plain.length() < 5) {
        this->webServer->send(406);
        return;
      } else if (plain.length() > 2536) {
        this->webServer->send(413);
        return;
      }
      JsonDocument doc;
      DeserializationError dErr = deserializeJson(doc, plain);
      plain.clear();
      if (dErr != DeserializationError::Ok || doc.isNull() || !doc.size()) {
        this->webServer->send(400);
        return;
      }
      bool changed = false;
      if (doc["settings"] && jsonToSettings(doc["settings"], settings)) {
        vars.actions.restart = true;
        fsSettings.update();
        changed = true;
      }
      if (doc["network"] && jsonToNetworkSettings(doc["network"], networkSettings)) {
        fsNetworkSettings.update();
        network->setHostname(networkSettings.hostname)
          ->setStaCredentials(networkSettings.sta.ssid, networkSettings.sta.password, networkSettings.sta.channel)
          ->setApCredentials(networkSettings.ap.ssid, networkSettings.ap.password, networkSettings.ap.channel)
          ->setUseDhcp(networkSettings.useDhcp)
          ->setStaticConfig(
            networkSettings.staticConfig.ip,
            networkSettings.staticConfig.gateway,
            networkSettings.staticConfig.subnet,
            networkSettings.staticConfig.dns
          )
          ->reconnect();
        changed = true;
      }
      doc.clear();
      doc.shrinkToFit();
      this->webServer->send(changed ? 201 : 200);
    });
    // network
    this->webServer->on("/api/network/settings", HTTP_GET, [this]() {
      if (this->isAuthRequired()) {
        if (!this->webServer->authenticate(settings.portal.login, settings.portal.password)) {
          return this->webServer->send(401);
        }
      }
      JsonDocument doc;
      networkSettingsToJson(networkSettings, doc);
      doc.shrinkToFit();
      this->bufferedWebServer->send(200, "application/json", doc);
    });
    this->webServer->on("/api/network/settings", HTTP_POST, [this]() {
      if (this->isAuthRequired()) {
        if (!this->webServer->authenticate(settings.portal.login, settings.portal.password)) {
          return this->webServer->send(401);
        }
      }
      String plain = this->webServer->arg(0);
      Log.straceln(FPSTR(L_PORTAL_WEBSERVER), F("Request /api/network/settings %d bytes: %s"), plain.length(), plain.c_str());
      if (plain.length() < 5) {
        this->webServer->send(406);
        return;
      } else if (plain.length() > 512) {
        this->webServer->send(413);
        return;
      }
      JsonDocument doc;
      DeserializationError dErr = deserializeJson(doc, plain);
      plain.clear();
      if (dErr != DeserializationError::Ok || doc.isNull() || !doc.size()) {
        this->webServer->send(400);
        return;
      }
      bool changed = jsonToNetworkSettings(doc, networkSettings);
      doc.clear();
      doc.shrinkToFit();
      networkSettingsToJson(networkSettings, doc);
      doc.shrinkToFit();
      this->bufferedWebServer->send(changed ? 201 : 200, "application/json", doc);
      if (changed) {
        doc.clear();
        doc.shrinkToFit();
        fsNetworkSettings.update();
        network->setHostname(networkSettings.hostname)
          ->setStaCredentials(networkSettings.sta.ssid, networkSettings.sta.password, networkSettings.sta.channel)
          ->setApCredentials(networkSettings.ap.ssid, networkSettings.ap.password, networkSettings.ap.channel)
          ->setUseDhcp(networkSettings.useDhcp)
          ->setStaticConfig(
            networkSettings.staticConfig.ip,
            networkSettings.staticConfig.gateway,
            networkSettings.staticConfig.subnet,
            networkSettings.staticConfig.dns
          )
          ->reconnect();
      }
    });
    this->webServer->on("/api/network/scan", HTTP_GET, [this]() {
      if (this->isAuthRequired()) {
        if (!this->webServer->authenticate(settings.portal.login, settings.portal.password)) {
          this->webServer->send(401);
          return;
        }
      }
      auto apCount = WiFi.scanComplete();
      if (apCount <= 0) {
        if (apCount != WIFI_SCAN_RUNNING) {
          #ifdef ARDUINO_ARCH_ESP8266
          WiFi.scanNetworks(true, true);
          #else
          WiFi.scanNetworks(true, true, true);
          #endif
        }
        this->webServer->send(404);
        return;
      }
      JsonDocument doc;
      for (short int i = 0; i < apCount; i++) {
        String ssid = WiFi.SSID(i);
        doc[i]["ssid"] = ssid;
        doc[i]["bssid"] = WiFi.BSSIDstr(i);
        doc[i]["signalQuality"] = NetworkMgr::rssiToSignalQuality(WiFi.RSSI(i));
        doc[i]["channel"] = WiFi.channel(i);
        doc[i]["hidden"] = !ssid.length();
        #ifdef ARDUINO_ARCH_ESP8266
        const bss_info* info = WiFi.getScanInfoByIndex(i);
        doc[i]["auth"] = info->authmode;
        #else
        doc[i]["auth"] = WiFi.encryptionType(i);
        #endif
      }
      doc.shrinkToFit();
      this->bufferedWebServer->send(200, "application/json", doc);
      WiFi.scanDelete();
    });
    // settings
    this->webServer->on("/api/settings", HTTP_GET, [this]() {
      if (this->isAuthRequired()) {
        if (!this->webServer->authenticate(settings.portal.login, settings.portal.password)) {
          return this->webServer->send(401);
        }
      }
      JsonDocument doc;
      settingsToJson(settings, doc);
      doc.shrinkToFit();
      this->bufferedWebServer->send(200, "application/json", doc);
    });
    this->webServer->on("/api/settings", HTTP_POST, [this]() {
      if (this->isAuthRequired()) {
        if (!this->webServer->authenticate(settings.portal.login, settings.portal.password)) {
          return this->webServer->send(401);
        }
      }
      String plain = this->webServer->arg(0);
      Log.straceln(FPSTR(L_PORTAL_WEBSERVER), F("Request /api/settings %d bytes: %s"), plain.length(), plain.c_str());
      if (plain.length() < 5) {
        this->webServer->send(406);
        return;
      } else if (plain.length() > 2536) {
        this->webServer->send(413);
        return;
      }
      JsonDocument doc;
      DeserializationError dErr = deserializeJson(doc, plain);
      plain.clear();
      if (dErr != DeserializationError::Ok || doc.isNull() || !doc.size()) {
        this->webServer->send(400);
        return;
      }
      bool changed = jsonToSettings(doc, settings);
      doc.clear();
      doc.shrinkToFit();
      settingsToJson(settings, doc);
      doc.shrinkToFit();
      this->bufferedWebServer->send(changed ? 201 : 200, "application/json", doc);
      if (changed) {
        doc.clear();
        doc.shrinkToFit();
        fsSettings.update();
        tMqtt->resetPublishedSettingsTime();
      }
    });
    // vars
    this->webServer->on("/api/vars", HTTP_GET, [this]() {
      JsonDocument doc;
      varsToJson(vars, doc);
      doc.shrinkToFit();
      this->bufferedWebServer->send(200, "application/json", doc);
    });
    this->webServer->on("/api/vars", HTTP_POST, [this]() {
      if (this->isAuthRequired()) {
        if (!this->webServer->authenticate(settings.portal.login, settings.portal.password)) {
          return this->webServer->send(401);
        }
      }
      String plain = this->webServer->arg(0);
      Log.straceln(FPSTR(L_PORTAL_WEBSERVER), F("Request /api/vars %d bytes: %s"), plain.length(), plain.c_str());
      if (plain.length() < 5) {
        this->webServer->send(406);
        return;
      } else if (plain.length() > 1536) {
        this->webServer->send(413);
        return;
      }
      JsonDocument doc;
      DeserializationError dErr = deserializeJson(doc, plain);
      plain.clear();
      if (dErr != DeserializationError::Ok || doc.isNull() || !doc.size()) {
        this->webServer->send(400);
        return;
      }
      bool changed = jsonToVars(doc, vars);
      doc.clear();
      doc.shrinkToFit();
      varsToJson(vars, doc);
      doc.shrinkToFit();
      this->bufferedWebServer->send(changed ? 201 : 200, "application/json", doc);
      if (changed) {
        doc.clear();
        doc.shrinkToFit();
        tMqtt->resetPublishedVarsTime();
      }
    });
    this->webServer->on("/api/info", HTTP_GET, [this]() {
      bool isConnected = network->isConnected();
      JsonDocument doc;
      doc["system"]["resetReason"] = getResetReason();
      doc["system"]["uptime"] = millis() / 1000ul;
      doc["network"]["hostname"] = networkSettings.hostname;
      doc["network"]["mac"] = network->getStaMac();
      doc["network"]["connected"] = isConnected;
      doc["network"]["ssid"] = network->getStaSsid();
      doc["network"]["signalQuality"] = isConnected ? NetworkMgr::rssiToSignalQuality(network->getRssi()) : 0;
      doc["network"]["channel"] = isConnected ? network->getStaChannel() : 0;
      doc["network"]["ip"] = isConnected ? network->getStaIp().toString() : "";
      doc["network"]["subnet"] = isConnected ? network->getStaSubnet().toString() : "";
      doc["network"]["gateway"] = isConnected ? network->getStaGateway().toString() : "";
      doc["network"]["dns"] = isConnected ? network->getStaDns().toString() : "";
      doc["build"]["version"] = BUILD_VERSION;
      doc["build"]["date"] = __DATE__ " " __TIME__;
      doc["build"]["env"] = BUILD_ENV;
      doc["heap"]["total"] = getTotalHeap();
      doc["heap"]["free"] = getFreeHeap();
      doc["heap"]["minFree"] = getFreeHeap(true);
      doc["heap"]["maxFreeBlock"] = getMaxFreeBlockHeap();
      doc["heap"]["minMaxFreeBlock"] = getMaxFreeBlockHeap(true);
      #ifdef ARDUINO_ARCH_ESP8266
      doc["build"]["core"] = ESP.getCoreVersion();
      doc["build"]["sdk"] = ESP.getSdkVersion();
      doc["chip"]["model"] = esp_is_8285() ? "ESP8285" : "ESP8266";
      doc["chip"]["rev"] = 0;
      doc["chip"]["cores"] = 1;
      doc["chip"]["freq"] = ESP.getCpuFreqMHz();
      doc["flash"]["size"] = ESP.getFlashChipSize();
      doc["flash"]["realSize"] = ESP.getFlashChipRealSize();
      #elif ARDUINO_ARCH_ESP32
      doc["build"]["core"] = ESP.getCoreVersion();
      doc["build"]["sdk"] = ESP.getSdkVersion();
      doc["chip"]["model"] = ESP.getChipModel();
      doc["chip"]["rev"] = ESP.getChipRevision();
      doc["chip"]["cores"] = ESP.getChipCores();
      doc["chip"]["freq"] = ESP.getCpuFreqMHz();
      doc["flash"]["size"] = ESP.getFlashChipSize();
      doc["flash"]["realSize"] = doc["flash"]["size"];
      #else
      doc["build"]["core"] = 0;
      doc["build"]["sdk"] = 0;
      doc["chip"]["model"] = 0;
      doc["chip"]["rev"] = 0;
      doc["chip"]["cores"] = 0;
      doc["chip"]["freq"] = 0;
      doc["flash"]["size"] = 0;
      doc["flash"]["realSize"] = 0;
      #endif
      doc.shrinkToFit();
      this->bufferedWebServer->send(200, "application/json", doc);
    });
    this->webServer->on("/api/debug", HTTP_GET, [this]() {
      JsonDocument doc;
      doc["build"]["version"] = BUILD_VERSION;
      doc["build"]["date"] = __DATE__ " " __TIME__;
      doc["build"]["env"] = BUILD_ENV;
      doc["heap"]["total"] = getTotalHeap();
      doc["heap"]["free"] = getFreeHeap();
      doc["heap"]["minFree"] = getFreeHeap(true);
      doc["heap"]["maxFreeBlock"] = getMaxFreeBlockHeap();
      doc["heap"]["minMaxFreeBlock"] = getMaxFreeBlockHeap(true);
      #if defined(ARDUINO_ARCH_ESP32)
      auto reason = esp_reset_reason();
      if (reason != ESP_RST_UNKNOWN && reason != ESP_RST_POWERON && reason != ESP_RST_SW) {
      #elif defined(ARDUINO_ARCH_ESP8266)
      auto reason = ESP.getResetInfoPtr()->reason;
      if (reason != REASON_DEFAULT_RST && reason != REASON_SOFT_RESTART && reason != REASON_EXT_SYS_RST) {
      #else
      if (false) {
      #endif
        doc["crash"]["reason"] = getResetReason();
        doc["crash"]["core"] = CrashRecorder::ext.core;
        doc["crash"]["heap"] = CrashRecorder::ext.heap;
        doc["crash"]["uptime"] = CrashRecorder::ext.uptime;
        if (CrashRecorder::backtrace.length > 0 && CrashRecorder::backtrace.length <= CrashRecorder::backtraceMaxLength) {
          String backtraceStr;
          arr2str(backtraceStr, CrashRecorder::backtrace.data, CrashRecorder::backtrace.length);
          doc["crash"]["backtrace"]["data"] = backtraceStr;
          doc["crash"]["backtrace"]["continues"] = CrashRecorder::backtrace.continues;
        }
        if (CrashRecorder::epc.length > 0 && CrashRecorder::epc.length <= CrashRecorder::epcMaxLength) {
          String epcStr;
          arr2str(epcStr, CrashRecorder::epc.data, CrashRecorder::epc.length);
          doc["crash"]["epc"] = epcStr;
        }
      }
      #ifdef ARDUINO_ARCH_ESP8266
      doc["build"]["core"] = ESP.getCoreVersion();
      doc["build"]["sdk"] = ESP.getSdkVersion();
      doc["chip"]["model"] = esp_is_8285() ? "ESP8285" : "ESP8266";
      doc["chip"]["rev"] = 0;
      doc["chip"]["cores"] = 1;
      doc["chip"]["freq"] = ESP.getCpuFreqMHz();
      doc["flash"]["size"] = ESP.getFlashChipSize();
      doc["flash"]["realSize"] = ESP.getFlashChipRealSize();
      #elif ARDUINO_ARCH_ESP32
      doc["build"]["core"] = ESP.getCoreVersion();
      doc["build"]["sdk"] = ESP.getSdkVersion();
      doc["chip"]["model"] = ESP.getChipModel();
      doc["chip"]["rev"] = ESP.getChipRevision();
      doc["chip"]["cores"] = ESP.getChipCores();
      doc["chip"]["freq"] = ESP.getCpuFreqMHz();
      doc["flash"]["size"] = ESP.getFlashChipSize();
      doc["flash"]["realSize"] = doc["flash"]["size"];
      #else
      doc["build"]["core"] = 0;
      doc["build"]["sdk"] = 0;
      doc["chip"]["model"] = 0;
      doc["chip"]["rev"] = 0;
      doc["chip"]["cores"] = 0;
      doc["chip"]["freq"] = 0;
      doc["flash"]["size"] = 0;
      doc["flash"]["realSize"] = 0;
      #endif
      doc.shrinkToFit();
      this->webServer->sendHeader(F("Content-Disposition"), F("attachment; filename=\"debug.json\""));
      this->bufferedWebServer->send(200, "application/json", doc, true);
    });
    // not found
    this->webServer->onNotFound([this]() {
      Log.straceln(FPSTR(L_PORTAL_WEBSERVER), F("Page not found, uri: %s"), this->webServer->uri().c_str());
      const String uri = this->webServer->uri();
      if (uri.equals("/")) {
        this->webServer->send(200, "text/plain", F("The file system is not flashed!"));
      } else if (network->isApEnabled()) {
        this->onCaptivePortal();
      } else {
        this->webServer->send(404, "text/plain", F("Page not found"));
      }
    });
    this->webServer->serveStatic("/favicon.ico", LittleFS, "/static/images/favicon.ico", PORTAL_CACHE);
    this->webServer->serveStatic("/static", LittleFS, "/static", PORTAL_CACHE);
  }
  void loop() {
    // web server
    if (!this->stateWebServer() && (network->isApEnabled() || network->isConnected()) && millis() - this->webServerChangeState >= this->changeStateInterval) {
      #ifdef ARDUINO_ARCH_ESP32
      this->delay(250);
      #endif
      this->startWebServer();
      Log.straceln(FPSTR(L_PORTAL_WEBSERVER), F("Started: AP up or STA connected"));
      #ifdef ARDUINO_ARCH_ESP8266
      ::delay(0);
      #endif
    } else if (this->stateWebServer() && !network->isApEnabled() && !network->isStaEnabled()) {
      this->stopWebServer();
      Log.straceln(FPSTR(L_PORTAL_WEBSERVER), F("Stopped: AP and STA down"));
      #ifdef ARDUINO_ARCH_ESP8266
      ::delay(0);
      #endif
    }
    // dns server
    if (!this->stateDnsServer() && this->stateWebServer() && network->isApEnabled() && network->hasApClients() && millis() - this->dnsServerChangeState >= this->changeStateInterval) {
      this->startDnsServer();
      Log.straceln(FPSTR(L_PORTAL_DNSSERVER), F("Started: AP up"));
      #ifdef ARDUINO_ARCH_ESP8266
      ::delay(0);
      #endif
    } else if (this->stateDnsServer() && (!network->isApEnabled() || !this->stateWebServer())) {
      this->stopDnsServer();
      Log.straceln(FPSTR(L_PORTAL_DNSSERVER), F("Stopped: AP down"));
      #ifdef ARDUINO_ARCH_ESP8266
      ::delay(0);
      #endif
    }
    if (this->stateDnsServer()) {
      this->dnsServer->processNextRequest();
      #ifdef ARDUINO_ARCH_ESP8266
      ::delay(0);
      #endif
    }
    if (this->stateWebServer()) {
      this->webServer->handleClient();
    }
    if (!this->stateDnsServer() && !this->stateWebServer()) {
      this->delay(250);
    }
  }
  bool isAuthRequired() {
    return !network->isApEnabled() && settings.portal.auth && strlen(settings.portal.password);
  }
  void onCaptivePortal() {
    const String uri = this->webServer->uri();
    if (uri.equals("/connecttest.txt")) {
      this->webServer->sendHeader(F("Location"), F("http://logout.net"));
      this->webServer->send(302);
      Log.straceln(FPSTR(L_PORTAL_CAPTIVE), F("Redirect to http://logout.net with 302 code"));
    } else if (uri.equals("/wpad.dat")) {
      this->webServer->send(404);
      Log.straceln(FPSTR(L_PORTAL_CAPTIVE), F("Send empty page with 404 code"));
    } else if (uri.equals("/success.txt")) {
      this->webServer->send(200);
      Log.straceln(FPSTR(L_PORTAL_CAPTIVE), F("Send empty page with 200 code"));
    } else {
      String portalUrl = "http://" + network->getApIp().toString() + '/';
      this->webServer->sendHeader("Location", portalUrl.c_str());
      this->webServer->send(302);
      Log.straceln(FPSTR(L_PORTAL_CAPTIVE), F("Redirect to portal page with 302 code"));
    }
  }
  bool stateWebServer() {
    return this->webServerEnabled;
  }
  void startWebServer() {
    if (this->stateWebServer()) {
      return;
    }
    this->webServer->begin();
    #ifdef ARDUINO_ARCH_ESP8266
    this->webServer->getServer().setNoDelay(true);
    #endif
    this->webServerEnabled = true;
    this->webServerChangeState = millis();
  }
  void stopWebServer() {
    if (!this->stateWebServer()) {
      return;
    }
    //this->webServer->handleClient();
    this->webServer->stop();
    this->webServerEnabled = false;
    this->webServerChangeState = millis();
  }
  bool stateDnsServer() {
    return this->dnsServerEnabled;
  }
  void startDnsServer() {
    if (this->stateDnsServer()) {
      return;
    }
    this->dnsServer->start(53, "*", network->getApIp());
    this->dnsServerEnabled = true;
    this->dnsServerChangeState = millis();
  }
  void stopDnsServer() {
    if (!this->stateDnsServer()) {
      return;
    }
    //this->dnsServer->processNextRequest();
    this->dnsServer->stop();
    this->dnsServerEnabled = false;
    this->dnsServerChangeState = millis();
  }
 };
@@ -1,185 +0,0 @@
 #include <Equitherm.h>
 #include <GyverPID.h>
 Equitherm etRegulator;
 GyverPID pidRegulator(0, 0, 0);
 class RegulatorTask : public LeanTask {
 public:
  RegulatorTask(bool _enabled = false, unsigned long _interval = 0) : LeanTask(_enabled, _interval) {}
 protected:
  float prevHeatingTarget = 0;
  float prevEtResult = 0;
  float prevPidResult = 0;
  #if defined(ARDUINO_ARCH_ESP32)
  const char* getTaskName() override {
    return "Regulator";
  }
  /*BaseType_t getTaskCore() override {
    return 1;
  }*/
  int getTaskPriority() override {
    return 4;
  }
  #endif
  void loop() {
    if (!settings.pid.enable && fabs(pidRegulator.integral) > 0.01f) {
      pidRegulator.integral = 0.0f;
      Log.sinfoln(FPSTR(L_REGULATOR_PID), F("Integral sum has been reset"));
    }
    if (settings.heating.turbo) {
      if (!settings.heating.enable || vars.states.emergency || !vars.sensors.indoor.connected) {
        settings.heating.turbo = false;
      } else if (!settings.pid.enable && !settings.equitherm.enable) {
        settings.heating.turbo = false;
      } else if (fabs(settings.heating.target - vars.temperatures.indoor) <= 1.0f) {
        settings.heating.turbo = false;
      }
      if (!settings.heating.turbo) {
        Log.sinfoln(FPSTR(L_REGULATOR), F("Turbo mode auto disabled"));
      }
    }
    float newTemp = vars.states.emergency
      ? settings.emergency.target
      : this->getNormalModeTemp();
    // Limits
    newTemp = constrain(
      newTemp,
      !settings.opentherm.nativeHeatingControl ? settings.heating.minTemp : THERMOSTAT_INDOOR_MIN_TEMP,
      !settings.opentherm.nativeHeatingControl ? settings.heating.maxTemp : THERMOSTAT_INDOOR_MAX_TEMP
    );
    if (fabs(vars.parameters.heatingSetpoint - newTemp) > 0.09f) {
      vars.parameters.heatingSetpoint = newTemp;
    }
  }
  float getNormalModeTemp() {
    float newTemp = 0;
    if (fabs(prevHeatingTarget - settings.heating.target) > 0.0001f) {
      prevHeatingTarget = settings.heating.target;
      Log.sinfoln(FPSTR(L_REGULATOR), F("New target: %.2f"), settings.heating.target);
      /*if (settings.pid.enable) {
        pidRegulator.integral = 0.0f;
        Log.sinfoln(FPSTR(L_REGULATOR_PID), F("Integral sum has been reset"));
      }*/
    }
    // if use equitherm
    if (settings.equitherm.enable) {
      unsigned short minTemp = settings.heating.minTemp;
      unsigned short maxTemp = settings.heating.maxTemp;
      float targetTemp = settings.heating.target;
      float indoorTemp = vars.temperatures.indoor;
      float outdoorTemp = vars.temperatures.outdoor;
      if (settings.system.unitSystem == UnitSystem::IMPERIAL) {
        minTemp = f2c(minTemp);
        maxTemp = f2c(maxTemp);
        targetTemp = f2c(targetTemp);
        indoorTemp = f2c(indoorTemp);
        outdoorTemp = f2c(outdoorTemp);
      }
      if (!vars.sensors.indoor.connected || settings.pid.enable) {
        etRegulator.Kt = 0.0f;
        etRegulator.indoorTemp = 0.0f;
      } else {
        etRegulator.Kt = settings.heating.turbo ? 0.0f : settings.equitherm.t_factor;
        etRegulator.indoorTemp = indoorTemp;
      }
      etRegulator.setLimits(minTemp, maxTemp);
      etRegulator.Kn = settings.equitherm.n_factor;
      etRegulator.Kk = settings.equitherm.k_factor;
      etRegulator.targetTemp = targetTemp;
      etRegulator.outdoorTemp = outdoorTemp;
      float etResult = etRegulator.getResult();
      if (settings.system.unitSystem == UnitSystem::IMPERIAL) {
        etResult = c2f(etResult);
      }
      if (fabs(prevEtResult - etResult) > 0.09f) {
        prevEtResult = etResult;
        newTemp += etResult;
        Log.sinfoln(FPSTR(L_REGULATOR_EQUITHERM), F("New result: %.2f"), etResult);
      } else {
        newTemp += prevEtResult;
      }
    }
    // if use pid
    if (settings.pid.enable) {
      //if (vars.parameters.heatingEnabled) {
      if (settings.heating.enable && vars.sensors.indoor.connected) {
        pidRegulator.Kp = settings.heating.turbo ? 0.0f : settings.pid.p_factor;
        pidRegulator.Kd = settings.pid.d_factor;
        pidRegulator.setLimits(settings.pid.minTemp, settings.pid.maxTemp);
        pidRegulator.setDt(settings.pid.dt * 1000u);
        pidRegulator.input = vars.temperatures.indoor;
        pidRegulator.setpoint = settings.heating.target;
        if (fabs(pidRegulator.Ki - settings.pid.i_factor) >= 0.0001f) {
          pidRegulator.Ki = settings.pid.i_factor;
          pidRegulator.integral = 0.0f;
          pidRegulator.getResultNow();
          Log.sinfoln(FPSTR(L_REGULATOR_PID), F("Integral sum has been reset"));
        }
        float pidResult = pidRegulator.getResultTimer();
        if (fabs(prevPidResult - pidResult) > 0.09f) {
          prevPidResult = pidResult;
          newTemp += pidResult;
          Log.sinfoln(FPSTR(L_REGULATOR_PID), F("New result: %.2f"), pidResult);
          Log.straceln(FPSTR(L_REGULATOR_PID), F("Integral: %.2f"), pidRegulator.integral);
        } else {
          newTemp += prevPidResult;
        }
      } else {
        newTemp += prevPidResult;
      }
    }
    // Turbo mode
    if (settings.heating.turbo && (settings.equitherm.enable || settings.pid.enable)) {
      newTemp += constrain(
        settings.heating.target - vars.temperatures.indoor,
        -3.0f,
        3.0f
      ) * settings.heating.turboFactor;
    }
    // default temp, manual mode
    if (!settings.equitherm.enable && !settings.pid.enable) {
      newTemp = settings.heating.target;
    }
    return newTemp;
  }
 };
@@ -1,738 +0,0 @@
 #include <OneWire.h>
 #include <DallasTemperature.h>
 #if USE_BLE
  #include <NimBLEDevice.h>
 #endif
 class SensorsTask : public LeanTask {
 public:
  SensorsTask(bool _enabled = false, unsigned long _interval = 0) : LeanTask(_enabled, _interval) {
    this->oneWireOutdoorSensor = new OneWire();
    this->outdoorSensor = new DallasTemperature(this->oneWireOutdoorSensor);
    this->outdoorSensor->setWaitForConversion(false);
    this->oneWireIndoorSensor = new OneWire();
    this->indoorSensor = new DallasTemperature(this->oneWireIndoorSensor);
    this->indoorSensor->setWaitForConversion(false);
  }
  ~SensorsTask() {
    delete this->outdoorSensor;
    delete this->oneWireOutdoorSensor;
    delete this->indoorSensor;
    delete this->oneWireIndoorSensor;
  }
 protected:
  OneWire* oneWireOutdoorSensor = nullptr;
  OneWire* oneWireIndoorSensor = nullptr;
  DallasTemperature* outdoorSensor = nullptr;
  DallasTemperature* indoorSensor = nullptr;
  bool initOutdoorSensor = false;
  unsigned long initOutdoorSensorTime = 0;
  unsigned long startOutdoorConversionTime = 0;
  float filteredOutdoorTemp = 0;
  float prevFilteredOutdoorTemp = 0;
  bool initIndoorSensor = false;
  unsigned long initIndoorSensorTime = 0;
  unsigned long startIndoorConversionTime = 0;
  float filteredIndoorTemp = 0;
  float prevFilteredIndoorTemp = 0;
  #if defined(ARDUINO_ARCH_ESP32)
  #if USE_BLE
  unsigned long outdoorConnectedTime = 0;
  unsigned long indoorConnectedTime = 0;
  #endif
  const char* getTaskName() override {
    return "Sensors";
  }
  BaseType_t getTaskCore() override {
    // https://github.com/h2zero/NimBLE-Arduino/issues/676
    #if USE_BLE && defined(CONFIG_BT_NIMBLE_PINNED_TO_CORE)
    return CONFIG_BT_NIMBLE_PINNED_TO_CORE;
    #else
    return tskNO_AFFINITY;
    #endif
  }
  int getTaskPriority() override {
    return 4;
  }
  #endif
  void loop() {
    #if USE_BLE
    if (!NimBLEDevice::getInitialized() && millis() > 5000) {
      Log.sinfoln(FPSTR(L_SENSORS_BLE), F("Init BLE"));
      BLEDevice::init("");
      NimBLEDevice::setPower(ESP_PWR_LVL_P9);
    }
    #endif
    if (settings.sensors.outdoor.type == SensorType::DS18B20 && GPIO_IS_VALID(settings.sensors.outdoor.gpio)) {
      outdoorDallasSensor();
    }
    #if USE_BLE
    else if (settings.sensors.outdoor.type == SensorType::BLUETOOTH) {
      bool connected = this->bluetoothSensor(
        BLEAddress(settings.sensors.outdoor.bleAddress),
        &vars.sensors.outdoor.rssi,
        &this->filteredOutdoorTemp,
        &vars.sensors.outdoor.humidity,
        &vars.sensors.outdoor.battery
      );
      if (connected) {
        this->outdoorConnectedTime = millis();
        vars.sensors.outdoor.connected = true;
      } else if (millis() - this->outdoorConnectedTime > 60000) {
        vars.sensors.outdoor.connected = false;
      }
    }
    #endif
    if (settings.sensors.indoor.type == SensorType::DS18B20 && GPIO_IS_VALID(settings.sensors.indoor.gpio)) {
      indoorDallasSensor();
    }
    #if USE_BLE
    else if (settings.sensors.indoor.type == SensorType::BLUETOOTH) {
      bool connected = this->bluetoothSensor(
        BLEAddress(settings.sensors.indoor.bleAddress),
        &vars.sensors.indoor.rssi,
        &this->filteredIndoorTemp,
        &vars.sensors.indoor.humidity,
        &vars.sensors.indoor.battery
      );
      if (connected) {
        this->indoorConnectedTime = millis();
        vars.sensors.indoor.connected = true;
      } else if (millis() - this->indoorConnectedTime > 60000) {
        vars.sensors.indoor.connected = false;
      }
    }
    #endif
    // convert
    if (fabs(this->prevFilteredOutdoorTemp - this->filteredOutdoorTemp) >= 0.1f) {
      float newTemp = settings.sensors.outdoor.offset;
      if (settings.system.unitSystem == UnitSystem::METRIC) {
        newTemp += this->filteredOutdoorTemp;
      } else if (settings.system.unitSystem == UnitSystem::IMPERIAL) {
        newTemp += c2f(this->filteredOutdoorTemp);
      }
      if (fabs(vars.temperatures.outdoor - newTemp) > 0.099f) {
        vars.temperatures.outdoor = newTemp;
        Log.sinfoln(FPSTR(L_SENSORS_OUTDOOR), F("New temp: %f"), vars.temperatures.outdoor);
      }
      this->prevFilteredOutdoorTemp = this->filteredOutdoorTemp;
    }
    if (fabs(this->prevFilteredIndoorTemp - this->filteredIndoorTemp) > 0.1f) {
      float newTemp = settings.sensors.indoor.offset;
      if (settings.system.unitSystem == UnitSystem::METRIC) {
        newTemp += this->filteredIndoorTemp;
      } else if (settings.system.unitSystem == UnitSystem::IMPERIAL) {
        newTemp += c2f(this->filteredIndoorTemp);
      }
      if (fabs(vars.temperatures.indoor - newTemp) > 0.099f) {
        vars.temperatures.indoor = newTemp;
        Log.sinfoln(FPSTR(L_SENSORS_INDOOR), F("New temp: %f"), vars.temperatures.indoor);
      }
      this->prevFilteredIndoorTemp = this->filteredIndoorTemp;
    }
  }
 #if USE_BLE
  bool bluetoothSensor(const BLEAddress& address, int8_t* const pRssi, float* const pTemperature, float* const pHumidity = nullptr, float* const pBattery = nullptr) {
    if (!NimBLEDevice::getInitialized()) {
      return false;
    }
    NimBLEClient* pClient = nullptr;
    pClient = NimBLEDevice::getClientByPeerAddress(address);
    if (pClient == nullptr) {
      pClient = NimBLEDevice::getDisconnectedClient();
    }
    if (pClient == nullptr) {
      if (NimBLEDevice::getClientListSize() >= NIMBLE_MAX_CONNECTIONS) {
        return false;
      }
      pClient = NimBLEDevice::createClient();
      pClient->setConnectTimeout(5);
    }
    if(pClient->isConnected()) {
      *pRssi = pClient->getRssi();
      return true;
    }
    if (!pClient->connect(address)) {
      Log.swarningln(FPSTR(L_SENSORS_BLE), F("Device %s: failed connecting"), address.toString().c_str());
      NimBLEDevice::deleteClient(pClient);
      return false;
    }
    Log.sinfoln(FPSTR(L_SENSORS_BLE), F("Device %s: connected"), address.toString().c_str());
    NimBLERemoteService* pService = nullptr;
    NimBLERemoteCharacteristic* pChar = nullptr;
    // ENV Service (0x181A)
    NimBLEUUID serviceUuid((uint16_t) 0x181AU);
    pService = pClient->getService(serviceUuid);
    if (!pService) {
      Log.straceln(
        FPSTR(L_SENSORS_BLE),
        F("Device %s: failed to find env service (%s)"),
        address.toString().c_str(),
        serviceUuid.toString().c_str()
      );
    } else {
      Log.straceln(
        FPSTR(L_SENSORS_BLE),
        F("Device %s: found env service (%s)"),
        address.toString().c_str(),
        serviceUuid.toString().c_str()
      );
      // 0x2A6E - Notify temperature x0.01C (pvvx)
      bool tempNotifyCreated = false;
      if (!tempNotifyCreated) {
        NimBLEUUID charUuid((uint16_t) 0x2A6E);
        pChar = pService->getCharacteristic(charUuid);
        if (pChar && pChar->canNotify()) {
          Log.straceln(
            FPSTR(L_SENSORS_BLE),
            F("Device %s: found temperature char (%s) in env service"),
            address.toString().c_str(),
            charUuid.toString().c_str()
          );
          tempNotifyCreated = pChar->subscribe(true, [pTemperature](NimBLERemoteCharacteristic* pChar, uint8_t* pData, size_t length, bool isNotify) {
            if (pChar == nullptr) {
              return;
            }
            NimBLERemoteService* pService = pChar->getRemoteService();
            if (pService == nullptr) {
              return;
            }
            NimBLEClient* pClient = pService->getClient();
            if (pClient == nullptr) {
              return;
            }
            if (length != 2) {
              Log.swarningln(
                FPSTR(L_SENSORS_BLE),
                F("Device %s: invalid notification data at temperature char (%s)"),
                pClient->getPeerAddress().toString().c_str(),
                pChar->getUUID().toString().c_str()
              );
              return;
            }
            float rawTemp = ((pData[0] | (pData[1] << 8)) * 0.01f);
            Log.straceln(
              FPSTR(L_SENSORS_INDOOR),
              F("Device %s: raw temp %f"),
              pClient->getPeerAddress().toString().c_str(),
              rawTemp
            );
            if (fabs(*pTemperature) < 0.1f) {
              *pTemperature = rawTemp;
            } else {
              *pTemperature += (rawTemp - (*pTemperature)) * EXT_SENSORS_FILTER_K;
            }
            *pTemperature = floor((*pTemperature) * 100) / 100;
          });
          if (tempNotifyCreated) {
            Log.straceln(
              FPSTR(L_SENSORS_BLE),
              F("Device %s: subscribed to temperature char (%s) in env service"),
              address.toString().c_str(),
              charUuid.toString().c_str()
            );
          } else {
            Log.swarningln(
              FPSTR(L_SENSORS_BLE),
              F("Device %s: failed to subscribe to temperature char (%s) in env service"),
              address.toString().c_str(),
              charUuid.toString().c_str()
            );
          }
        }
      }
      // 0x2A1F - Notify temperature x0.1C (atc1441/pvvx)
      if (!tempNotifyCreated) {
        NimBLEUUID charUuid((uint16_t) 0x2A1F);
        pChar = pService->getCharacteristic(charUuid);
        if (pChar && pChar->canNotify()) {
          Log.straceln(
            FPSTR(L_SENSORS_BLE),
            F("Device %s: found temperature char (%s) in env service"),
            address.toString().c_str(),
            charUuid.toString().c_str()
          );
          tempNotifyCreated = pChar->subscribe(true, [pTemperature](NimBLERemoteCharacteristic* pChar, uint8_t* pData, size_t length, bool isNotify) {
            if (pChar == nullptr) {
              return;
            }
            NimBLERemoteService* pService = pChar->getRemoteService();
            if (pService == nullptr) {
              return;
            }
            NimBLEClient* pClient = pService->getClient();
            if (pClient == nullptr) {
              return;
            }
            if (length != 2) {
              Log.swarningln(
                FPSTR(L_SENSORS_BLE),
                F("Device %s: invalid notification data at temperature char (%s)"),
                pClient->getPeerAddress().toString().c_str(),
                pChar->getUUID().toString().c_str()
              );
              return;
            }
            float rawTemp = ((pData[0] | (pData[1] << 8)) * 0.1f);
            Log.straceln(
              FPSTR(L_SENSORS_INDOOR),
              F("Device %s: raw temp %f"),
              pClient->getPeerAddress().toString().c_str(),
              rawTemp
            );
            if (fabs(*pTemperature) < 0.1f) {
              *pTemperature = rawTemp;
            } else {
              *pTemperature += (rawTemp - (*pTemperature)) * EXT_SENSORS_FILTER_K;
            }
            *pTemperature = floor((*pTemperature) * 100) / 100;
          });
          if (tempNotifyCreated) {
            Log.straceln(
              FPSTR(L_SENSORS_BLE),
              F("Device %s: subscribed to temperature char (%s) in env service"),
              address.toString().c_str(),
              charUuid.toString().c_str()
            );
          } else {
            Log.swarningln(
              FPSTR(L_SENSORS_BLE),
              F("Device %s: failed to subscribe to temperature char (%s) in env service"),
              address.toString().c_str(),
              charUuid.toString().c_str()
            );
          }
        }
      }
      if (!tempNotifyCreated) {
        Log.swarningln(
          FPSTR(L_SENSORS_BLE),
          F("Device %s: not found supported temperature chars in env service"),
          address.toString().c_str()
        );
        pClient->disconnect();
        return false;
      }
      // 0x2A6F - Notify about humidity x0.01% (pvvx)
      if (pHumidity != nullptr) {
        bool humidityNotifyCreated = false;
        if (!humidityNotifyCreated) {
          NimBLEUUID charUuid((uint16_t) 0x2A6F);
          pChar = pService->getCharacteristic(charUuid);
          if (pChar && pChar->canNotify()) {
            Log.straceln(
              FPSTR(L_SENSORS_BLE),
              F("Device %s: found humidity char (%s) in env service"),
              address.toString().c_str(),
              charUuid.toString().c_str()
            );
            humidityNotifyCreated = pChar->subscribe(true, [pHumidity](NimBLERemoteCharacteristic* pChar, uint8_t* pData, size_t length, bool isNotify) {
              if (pChar == nullptr) {
                return;
              }
              NimBLERemoteService* pService = pChar->getRemoteService();
              if (pService == nullptr) {
                return;
              }
              NimBLEClient* pClient = pService->getClient();
              if (pClient == nullptr) {
                return;
              }
              if (length != 2) {
                Log.swarningln(
                  FPSTR(L_SENSORS_BLE),
                  F("Device %s: invalid notification data at humidity char (%s)"),
                  pClient->getPeerAddress().toString().c_str(),
                  pChar->getUUID().toString().c_str()
                );
                return;
              }
              float rawHumidity = ((pData[0] | (pData[1] << 8)) * 0.01f);
              Log.straceln(
                FPSTR(L_SENSORS_INDOOR),
                F("Device %s: raw humidity %f"),
                pClient->getPeerAddress().toString().c_str(),
                rawHumidity
              );
              if (fabs(*pHumidity) < 0.1f) {
                *pHumidity = rawHumidity;
              } else {
                *pHumidity += (rawHumidity - (*pHumidity)) * EXT_SENSORS_FILTER_K;
              }
              *pHumidity = floor((*pHumidity) * 100) / 100;
            });
            if (humidityNotifyCreated) {
              Log.straceln(
                FPSTR(L_SENSORS_BLE),
                F("Device %s: subscribed to humidity char (%s) in env service"),
                address.toString().c_str(),
                charUuid.toString().c_str()
              );
            } else {
              Log.swarningln(
                FPSTR(L_SENSORS_BLE),
                F("Device %s: failed to subscribe to humidity char (%s) in env service"),
                address.toString().c_str(),
                charUuid.toString().c_str()
              );
            }
          }
        }
        if (!humidityNotifyCreated) {
          Log.swarningln(
            FPSTR(L_SENSORS_BLE),
            F("Device %s: not found supported humidity chars in env service"),
            address.toString().c_str()
          );
        }
      }
    }
    // Battery Service (0x180F)
    if (pBattery != nullptr) {
      NimBLEUUID serviceUuid((uint16_t) 0x180F);
      pService = pClient->getService(serviceUuid);
      if (!pService) {
        Log.straceln(
          FPSTR(L_SENSORS_BLE),
          F("Device %s: failed to find battery service (%s)"),
          address.toString().c_str(),
          serviceUuid.toString().c_str()
        );
      } else {
        Log.straceln(
          FPSTR(L_SENSORS_BLE),
          F("Device %s: found battery service (%s)"),
          address.toString().c_str(),
          serviceUuid.toString().c_str()
        );
        // 0x2A19 - Notify the battery charge level 0..99% (pvvx)
        bool batteryNotifyCreated = false;
        if (!batteryNotifyCreated) {
          NimBLEUUID charUuid((uint16_t) 0x2A19);
          pChar = pService->getCharacteristic(charUuid);
          if (pChar && pChar->canNotify()) {
            Log.straceln(
              FPSTR(L_SENSORS_BLE),
              F("Device %s: found battery char (%s) in battery service"),
              address.toString().c_str(),
              charUuid.toString().c_str()
            );
            batteryNotifyCreated = pChar->subscribe(true, [pBattery](NimBLERemoteCharacteristic* pChar, uint8_t* pData, size_t length, bool isNotify) {
              if (pChar == nullptr) {
                return;
              }
              NimBLERemoteService* pService = pChar->getRemoteService();
              if (pService == nullptr) {
                return;
              }
              NimBLEClient* pClient = pService->getClient();
              if (pClient == nullptr) {
                return;
              }
              if (length != 1) {
                Log.swarningln(
                  FPSTR(L_SENSORS_BLE),
                  F("Device %s: invalid notification data at battery char (%s)"),
                  pClient->getPeerAddress().toString().c_str(),
                  pChar->getUUID().toString().c_str()
                );
                return;
              }
              uint8_t rawBattery = pData[0];
              Log.straceln(
                FPSTR(L_SENSORS_INDOOR),
                F("Device %s: raw battery %hhu"),
                pClient->getPeerAddress().toString().c_str(),
                rawBattery
              );
              if (fabs(*pBattery) < 0.1f) {
                *pBattery = rawBattery;
              } else {
                *pBattery += (rawBattery - (*pBattery)) * EXT_SENSORS_FILTER_K;
              }
              *pBattery = floor((*pBattery) * 100) / 100;
            });
            if (batteryNotifyCreated) {
              Log.straceln(
                FPSTR(L_SENSORS_BLE),
                F("Device %s: subscribed to battery char (%s) in battery service"),
                address.toString().c_str(),
                charUuid.toString().c_str()
              );
            } else {
              Log.swarningln(
                FPSTR(L_SENSORS_BLE),
                F("Device %s: failed to subscribe to battery char (%s) in battery service"),
                address.toString().c_str(),
                charUuid.toString().c_str()
              );
            }
          }
        }
        if (!batteryNotifyCreated) {
          Log.swarningln(
            FPSTR(L_SENSORS_BLE),
            F("Device %s: not found supported battery chars in battery service"),
            address.toString().c_str()
          );
        }
      }
    }
    return true;
  }
 #endif
  void outdoorDallasSensor() {
    if (!this->initOutdoorSensor) {
      if (this->initOutdoorSensorTime && millis() - this->initOutdoorSensorTime < EXT_SENSORS_INTERVAL * 10) {
        return;
      }
      Log.sinfoln(FPSTR(L_SENSORS_OUTDOOR), F("Starting on GPIO %hhu..."), settings.sensors.outdoor.gpio);
      this->oneWireOutdoorSensor->begin(settings.sensors.outdoor.gpio);
      this->oneWireOutdoorSensor->reset();
      this->outdoorSensor->begin();
      this->initOutdoorSensorTime = millis();
      Log.straceln(
        FPSTR(L_SENSORS_OUTDOOR),
        F("Devices on bus: %hhu, DS18* devices: %hhu"),
        this->outdoorSensor->getDeviceCount(),
        this->outdoorSensor->getDS18Count()
      );
      if (this->outdoorSensor->getDeviceCount() > 0) {
        this->initOutdoorSensor = true;
        this->outdoorSensor->setResolution(12);
        this->outdoorSensor->requestTemperatures();
        this->startOutdoorConversionTime = millis();
        Log.sinfoln(FPSTR(L_SENSORS_OUTDOOR), F("Started"));
      } else {
        if (vars.sensors.outdoor.connected) {
          vars.sensors.outdoor.connected = false;
        }
        return;
      }
    }
    unsigned long estimateConversionTime = millis() - this->startOutdoorConversionTime;
    if (estimateConversionTime < this->outdoorSensor->millisToWaitForConversion()) {
      return;
    }
    bool completed = this->outdoorSensor->isConversionComplete();
    if (!completed && estimateConversionTime >= 1000) {
      this->initOutdoorSensor = false;
      Log.serrorln(FPSTR(L_SENSORS_OUTDOOR), F("Could not read temperature data (no response)"));
    }
    if (!completed) {
      return;
    }
    float rawTemp = this->outdoorSensor->getTempCByIndex(0);
    if (rawTemp == DEVICE_DISCONNECTED_C) {
      this->initOutdoorSensor = false;
      Log.serrorln(FPSTR(L_SENSORS_OUTDOOR), F("Could not read temperature data (not connected)"));
    } else {
      Log.straceln(FPSTR(L_SENSORS_OUTDOOR), F("Raw temp: %f"), rawTemp);
      if (!vars.sensors.outdoor.connected) {
        vars.sensors.outdoor.connected = true;
      }
      if (fabs(this->filteredOutdoorTemp) < 0.1f) {
        this->filteredOutdoorTemp = rawTemp;
      } else {
        this->filteredOutdoorTemp += (rawTemp - this->filteredOutdoorTemp) * EXT_SENSORS_FILTER_K;
      }
      this->filteredOutdoorTemp = floor(this->filteredOutdoorTemp * 100) / 100;
      this->outdoorSensor->requestTemperatures();
      this->startOutdoorConversionTime = millis();
    }
  }
  void indoorDallasSensor() {
    if (!this->initIndoorSensor) {
      if (this->initIndoorSensorTime && millis() - this->initIndoorSensorTime < EXT_SENSORS_INTERVAL * 10) {
        return;
      }
      Log.sinfoln(FPSTR(L_SENSORS_INDOOR), F("Starting on GPIO %hhu..."), settings.sensors.indoor.gpio);
      this->oneWireIndoorSensor->begin(settings.sensors.indoor.gpio);
      this->oneWireIndoorSensor->reset();
      this->indoorSensor->begin();
      this->initIndoorSensorTime = millis();
      Log.straceln(
        FPSTR(L_SENSORS_INDOOR),
        F("Devices on bus: %hhu, DS18* devices: %hhu"),
        this->indoorSensor->getDeviceCount(),
        this->indoorSensor->getDS18Count()
      );
      if (this->indoorSensor->getDeviceCount() > 0) {
        this->initIndoorSensor = true;
        this->indoorSensor->setResolution(12);
        this->indoorSensor->requestTemperatures();
        this->startIndoorConversionTime = millis();
        Log.sinfoln(FPSTR(L_SENSORS_INDOOR), F("Started"));
      } else {
        if (vars.sensors.indoor.connected) {
          vars.sensors.indoor.connected = false;
        }
        return;
      }
    }
    unsigned long estimateConversionTime = millis() - this->startIndoorConversionTime;
    if (estimateConversionTime < this->indoorSensor->millisToWaitForConversion()) {
      return;
    }
    bool completed = this->indoorSensor->isConversionComplete();
    if (!completed && estimateConversionTime >= 1000) {
      this->initIndoorSensor = false;
      Log.serrorln(FPSTR(L_SENSORS_INDOOR), F("Could not read temperature data (no response)"));
    }
    if (!completed) {
      return;
    }
    float rawTemp = this->indoorSensor->getTempCByIndex(0);
    if (rawTemp == DEVICE_DISCONNECTED_C) {
      this->initIndoorSensor = false;
      Log.serrorln(FPSTR(L_SENSORS_INDOOR), F("Could not read temperature data (not connected)"));
    } else {
      Log.straceln(FPSTR(L_SENSORS_INDOOR), F("Raw temp: %f"), rawTemp);
      if (!vars.sensors.indoor.connected) {
        vars.sensors.indoor.connected = true;
      }
      if (fabs(this->filteredIndoorTemp) < 0.1f) {
        this->filteredIndoorTemp = rawTemp;
      } else {
        this->filteredIndoorTemp += (rawTemp - this->filteredIndoorTemp) * EXT_SENSORS_FILTER_K;
      }
      this->filteredIndoorTemp = floor(this->filteredIndoorTemp * 100) / 100;
      this->indoorSensor->requestTemperatures();
      this->startIndoorConversionTime = millis();
    }
  }
 };
@@ -1,252 +0,0 @@
 struct NetworkSettings {
  char hostname[25] = DEFAULT_HOSTNAME;
  bool useDhcp = true;
  struct {
    char ip[16] = "192.168.0.100";
    char gateway[16] = "192.168.0.1";
    char subnet[16] = "255.255.255.0";
    char dns[16] = "192.168.0.1";
  } staticConfig;
  struct {
    char ssid[33] = DEFAULT_AP_SSID;
    char password[65] = DEFAULT_AP_PASSWORD;
    byte channel = 6;
  } ap;
  struct {
    char ssid[33] = DEFAULT_STA_SSID;
    char password[65] = DEFAULT_STA_PASSWORD;
    byte channel = 0;
  } sta;
 } networkSettings;
 struct Settings {
  struct {
    uint8_t logLevel = DEFAULT_LOG_LEVEL;
    struct {
      bool enable = DEFAULT_SERIAL_ENABLE;
      unsigned int baudrate = DEFAULT_SERIAL_BAUD;
    } serial;
    struct {
      bool enable = DEFAULT_TELNET_ENABLE;
      unsigned short port = DEFAULT_TELNET_PORT;
    } telnet;
    UnitSystem unitSystem = UnitSystem::METRIC;
    byte statusLedGpio = DEFAULT_STATUS_LED_GPIO;
  } system;
  struct {
    bool auth = false;
    char login[13] = DEFAULT_PORTAL_LOGIN;
    char password[33] = DEFAULT_PORTAL_PASSWORD;
  } portal;
  struct {
    UnitSystem unitSystem = UnitSystem::METRIC;
    byte inGpio = DEFAULT_OT_IN_GPIO;
    byte outGpio = DEFAULT_OT_OUT_GPIO;
    byte rxLedGpio = DEFAULT_OT_RX_LED_GPIO;
    unsigned int memberIdCode = 0;
    uint8_t maxModulation = 100;
    float pressureFactor = 1.0f;
    float dhwFlowRateFactor = 1.0f;
    float minPower = 0.0f;
    float maxPower = 0.0f;
    bool dhwPresent = true;
    bool summerWinterMode = false;
    bool heatingCh2Enabled = true;
    bool heatingCh1ToCh2 = false;
    bool dhwToCh2 = false;
    bool dhwBlocking = false;
    bool modulationSyncWithHeating = false;
    bool getMinMaxTemp = true;
    bool nativeHeatingControl = false;
    bool immergasFix = false;
    struct {
      bool enable = false;
      float factor = 0.1f;
    } filterNumValues;
  } opentherm;
  struct {
    bool enable = false;
    char server[81] = DEFAULT_MQTT_SERVER;
    unsigned short port = DEFAULT_MQTT_PORT;
    char user[33] = DEFAULT_MQTT_USER;
    char password[33] = DEFAULT_MQTT_PASSWORD;
    char prefix[33] = DEFAULT_MQTT_PREFIX;
    unsigned short interval = 5;
    bool homeAssistantDiscovery = true;
  } mqtt;
  struct {
    float target = DEFAULT_HEATING_TARGET_TEMP;
    unsigned short tresholdTime = 120;
  } emergency;
  struct {
    bool enable = true;
    bool turbo = false;
    float target = DEFAULT_HEATING_TARGET_TEMP;
    float hysteresis = 0.5f;
    float turboFactor = 7.5f;
    byte minTemp = DEFAULT_HEATING_MIN_TEMP;
    byte maxTemp = DEFAULT_HEATING_MAX_TEMP;
  } heating;
  struct {
    bool enable = true;
    float target = DEFAULT_DHW_TARGET_TEMP;
    byte minTemp = DEFAULT_DHW_MIN_TEMP;
    byte maxTemp = DEFAULT_DHW_MAX_TEMP;
  } dhw;
  struct {
    bool enable = false;
    float p_factor = 2.0f;
    float i_factor = 0.0055f;
    float d_factor = 0.0f;
    unsigned short dt = 180;
    short minTemp = 0;
    short maxTemp = DEFAULT_HEATING_MAX_TEMP;
  } pid;
  struct {
    bool enable = false;
    float n_factor = 0.7f;
    float k_factor = 3.0f;
    float t_factor = 2.0f;
  } equitherm;
  struct {
    struct {
      SensorType type = SensorType::BOILER_OUTDOOR;
      byte gpio = DEFAULT_SENSOR_OUTDOOR_GPIO;
      uint8_t bleAddress[6] = {0x00, 0x00, 0x00, 0x00, 0x00, 0x00};
      float offset = 0.0f;
    } outdoor;
    struct {
      SensorType type = SensorType::MANUAL;
      byte gpio = DEFAULT_SENSOR_INDOOR_GPIO;
      uint8_t bleAddress[6] = {0x00, 0x00, 0x00, 0x00, 0x00, 0x00};
      float offset = 0.0f;
    } indoor;
  } sensors;
  struct {
    bool use = false;
    byte gpio = DEFAULT_EXT_PUMP_GPIO;
    unsigned short postCirculationTime = 600;
    unsigned int antiStuckInterval = 2592000;
    unsigned short antiStuckTime = 300;
  } externalPump;
  struct {
    struct {
      bool enable = false;
      byte gpio = GPIO_IS_NOT_CONFIGURED;
      byte invertState = false;
      unsigned short thresholdTime = 60;
    } input;
    struct {
      bool enable = false;
      byte gpio = GPIO_IS_NOT_CONFIGURED;
      byte invertState = false;
      unsigned short thresholdTime = 60;
      bool onFault = true;
      bool onLossConnection = true;
      bool onEnabledHeating = false;
    } output;
  } cascadeControl;
  char validationValue[8] = SETTINGS_VALID_VALUE;
 } settings;
 struct Variables {
  struct {
    bool otStatus = false;
    bool emergency = false;
    bool heating = false;
    bool dhw = false;
    bool flame = false;
    bool fault = false;
    bool diagnostic = false;
    bool externalPump = false;
    bool mqtt = false;
  } states;
  struct {
    float modulation = 0.0f;
    float pressure = 0.0f;
    float dhwFlowRate = 0.0f;
    float power = 0.0f;
    byte faultCode = 0;
    unsigned short diagnosticCode = 0;
    int8_t rssi = 0;
    struct {
      bool connected = false;
      int8_t rssi = 0;
      float battery = 0.0f;
      float humidity = 0.0f;
    } outdoor;
    struct {
      bool connected = false;
      int8_t rssi = 0;
      float battery = 0.0f;
      float humidity = 0.0f;
    } indoor;
  } sensors;
  struct {
    float indoor = 0.0f;
    float outdoor = 0.0f;
    float heating = 0.0f;
    float heatingReturn = 0.0f;
    float dhw = 0.0f;
    float exhaust = 0.0f;
  } temperatures;
  struct {
    bool input = false;
    bool output = false;
  } cascadeControl;
  struct {
    bool heatingEnabled = false;
    byte heatingMinTemp = DEFAULT_HEATING_MIN_TEMP;
    byte heatingMaxTemp = DEFAULT_HEATING_MAX_TEMP;
    float heatingSetpoint = 0;
    unsigned long extPumpLastEnableTime = 0;
    byte dhwMinTemp = DEFAULT_DHW_MIN_TEMP;
    byte dhwMaxTemp = DEFAULT_DHW_MAX_TEMP;
    byte minModulation = 0;
    byte maxModulation = 0;
    uint8_t maxPower = 0;
    uint8_t slaveMemberId = 0;
    uint8_t slaveFlags = 0;
    uint8_t slaveType = 0;
    uint8_t slaveVersion = 0;
    float slaveOtVersion = 0.0f;
    uint8_t masterMemberId = 0;
    uint8_t masterFlags = 0;
    uint8_t masterType = 0;
    uint8_t masterVersion = 0;
    float masterOtVersion = 0;
  } parameters;
  struct {
    bool restart = false;
    bool resetFault = false;
    bool resetDiagnostic = false;
  } actions;
 } vars;
@@ -1,162 +0,0 @@
 #define PROJECT_NAME                    "OpenTherm Gateway"
 #define PROJECT_REPO                    "https://github.com/Laxilef/OTGateway"
 #define MQTT_RECONNECT_INTERVAL         15000
 #define EXT_SENSORS_INTERVAL            5000
 #define EXT_SENSORS_FILTER_K            0.15
 #define CONFIG_URL                      "http://%s/"
 #define SETTINGS_VALID_VALUE            "stvalid" // only 8 chars!
 #define GPIO_IS_NOT_CONFIGURED          0xff
 #define DEFAULT_HEATING_TARGET_TEMP     40
 #define DEFAULT_HEATING_MIN_TEMP        20
 #define DEFAULT_HEATING_MAX_TEMP        90
 #define DEFAULT_DHW_TARGET_TEMP         40
 #define DEFAULT_DHW_MIN_TEMP            30
 #define DEFAULT_DHW_MAX_TEMP            60
 #define THERMOSTAT_INDOOR_DEFAULT_TEMP  20
 #define THERMOSTAT_INDOOR_MIN_TEMP      5
 #define THERMOSTAT_INDOOR_MAX_TEMP      30
 #ifndef BUILD_VERSION
  #define BUILD_VERSION                 "0.0.0"
 #endif
 #ifndef BUILD_ENV
  #define BUILD_ENV                     "undefined"
 #endif
 #ifndef DEFAULT_SERIAL_ENABLE
  #define DEFAULT_SERIAL_ENABLE true
 #endif
 #ifndef DEFAULT_SERIAL_BAUD
  #define DEFAULT_SERIAL_BAUD 115200
 #endif
 #ifndef DEFAULT_TELNET_ENABLE
  #define DEFAULT_TELNET_ENABLE true
 #endif
 #ifndef DEFAULT_TELNET_PORT
  #define DEFAULT_TELNET_PORT 23
 #endif
 #ifndef USE_BLE
  #define USE_BLE false
 #endif
 #ifndef DEFAULT_HOSTNAME
  #define DEFAULT_HOSTNAME "opentherm"
 #endif
 #ifndef DEFAULT_AP_SSID
  #define DEFAULT_AP_SSID "OpenTherm Gateway"
 #endif
 #ifndef DEFAULT_AP_PASSWORD
  #define DEFAULT_AP_PASSWORD "otgateway123456"
 #endif
 #ifndef DEFAULT_STA_SSID
  #define DEFAULT_STA_SSID ""
 #endif
 #ifndef DEFAULT_STA_PASSWORD
  #define DEFAULT_STA_PASSWORD ""
 #endif
 #ifndef DEFAULT_LOG_LEVEL
  #define DEFAULT_LOG_LEVEL TinyLogger::Level::VERBOSE
 #endif
 #ifndef DEFAULT_STATUS_LED_GPIO
  #define DEFAULT_STATUS_LED_GPIO GPIO_IS_NOT_CONFIGURED
 #endif
 #ifndef DEFAULT_PORTAL_LOGIN
  #define DEFAULT_PORTAL_LOGIN ""
 #endif
 #ifndef DEFAULT_PORTAL_PASSWORD
  #define DEFAULT_PORTAL_PASSWORD ""
 #endif
 #ifndef DEFAULT_MQTT_SERVER
  #define DEFAULT_MQTT_SERVER ""
 #endif
 #ifndef DEFAULT_MQTT_PORT
  #define DEFAULT_MQTT_PORT 1883
 #endif
 #ifndef DEFAULT_MQTT_USER
  #define DEFAULT_MQTT_USER ""
 #endif
 #ifndef DEFAULT_MQTT_PASSWORD
  #define DEFAULT_MQTT_PASSWORD ""
 #endif
 #ifndef DEFAULT_MQTT_PREFIX
  #define DEFAULT_MQTT_PREFIX "opentherm"
 #endif
 #ifndef DEFAULT_OT_IN_GPIO
  #define DEFAULT_OT_IN_GPIO GPIO_IS_NOT_CONFIGURED
 #endif
 #ifndef DEFAULT_OT_OUT_GPIO
  #define DEFAULT_OT_OUT_GPIO GPIO_IS_NOT_CONFIGURED
 #endif
 #ifndef DEFAULT_OT_RX_LED_GPIO
  #define DEFAULT_OT_RX_LED_GPIO GPIO_IS_NOT_CONFIGURED
 #endif
 #ifndef DEFAULT_OT_FAULT_STATE_GPIO
  #define DEFAULT_OT_FAULT_STATE_GPIO GPIO_IS_NOT_CONFIGURED
 #endif
 #ifndef DEFAULT_SENSOR_OUTDOOR_GPIO
  #define DEFAULT_SENSOR_OUTDOOR_GPIO GPIO_IS_NOT_CONFIGURED
 #endif
 #ifndef DEFAULT_SENSOR_INDOOR_GPIO
  #define DEFAULT_SENSOR_INDOOR_GPIO GPIO_IS_NOT_CONFIGURED
 #endif
 #ifndef DEFAULT_EXT_PUMP_GPIO
  #define DEFAULT_EXT_PUMP_GPIO GPIO_IS_NOT_CONFIGURED
 #endif
 #ifndef PROGMEM
  #define PROGMEM 
 #endif
 #ifdef ARDUINO_ARCH_ESP32
  #include <driver/gpio.h>
 #elif !defined(GPIO_IS_VALID_GPIO)
  #define GPIO_IS_VALID_GPIO(gpioNum) (gpioNum >= 0 && gpioNum <= 16)
 #endif
 #define GPIO_IS_VALID(gpioNum) (gpioNum != GPIO_IS_NOT_CONFIGURED && GPIO_IS_VALID_GPIO(gpioNum))
 enum class SensorType : byte {
  BOILER_OUTDOOR  = 0,
  BOILER_RETURN   = 4,
  MANUAL          = 1,
  DS18B20         = 2,
  BLUETOOTH       = 3
 };
 enum class UnitSystem : byte {
  METRIC,
  IMPERIAL
 };
 char buffer[255];
@@ -1,184 +0,0 @@
 #include <Arduino.h>
 #include "defines.h"
 #include "strings.h"
 #include "CrashRecorder.h"
 #include <ArduinoJson.h>
 #include <FileData.h>
 #include <LittleFS.h>
 #include <ESPTelnetStream.h>
 #include <TinyLogger.h>
 #include <NetworkMgr.h>
 #include "Settings.h"
 #include "utils.h"
 #if defined(ARDUINO_ARCH_ESP32)
  #include <ESP32Scheduler.h>
 #elif defined(ARDUINO_ARCH_ESP8266)
  #include <Scheduler.h>
 #else
  #error Wrong board. Supported boards: esp8266, esp32
 #endif
 #include <Task.h>
 #include <LeanTask.h>
 #include "MqttTask.h"
 #include "OpenThermTask.h"
 #include "SensorsTask.h"
 #include "RegulatorTask.h"
 #include "PortalTask.h"
 #include "MainTask.h"
 using namespace NetworkUtils;
 // Vars
 FileData fsNetworkSettings(&LittleFS, "/network.conf", 'n', &networkSettings, sizeof(networkSettings), 1000);
 FileData fsSettings(&LittleFS, "/settings.conf", 's', &settings, sizeof(settings), 60000);
 ESPTelnetStream* telnetStream = nullptr;
 NetworkMgr* network = nullptr;
 // Tasks
 MqttTask* tMqtt;
 OpenThermTask* tOt;
 SensorsTask* tSensors;
 RegulatorTask* tRegulator;
 PortalTask* tPortal;
 MainTask* tMain;
 void setup() {
  CrashRecorder::init();
  LittleFS.begin();
  Log.setLevel(TinyLogger::Level::VERBOSE);
  Log.setServiceTemplate("\033[1m[%s]\033[22m");
  Log.setLevelTemplate("\033[1m[%s]\033[22m");
  Log.setMsgPrefix("\033[m ");
  Log.setDateTemplate("\033[1m[%H:%M:%S]\033[22m");
  Log.setDateCallback([] {
    unsigned int time = millis() / 1000;
    int sec = time % 60;
    int min = time % 3600 / 60;
    int hour = time / 3600;
    return tm{sec, min, hour};
  });
  Serial.begin(115200);
  Log.addStream(&Serial);
  Log.print("\n\n\r");
  // network settings
  switch (fsNetworkSettings.read()) {
    case FD_FS_ERR:
      Log.swarningln(FPSTR(L_NETWORK_SETTINGS), F("Filesystem error, load default"));
      break;
    case FD_FILE_ERR:
      Log.swarningln(FPSTR(L_NETWORK_SETTINGS), F("Bad data, load default"));
      break;
    case FD_WRITE:
      Log.sinfoln(FPSTR(L_NETWORK_SETTINGS), F("Not found, load default"));
      break;
    case FD_ADD:
    case FD_READ:
      Log.sinfoln(FPSTR(L_NETWORK_SETTINGS), F("Loaded"));
      break;
    default:
      break;
  }
  // settings
  switch (fsSettings.read()) {
    case FD_FS_ERR:
      Log.swarningln(FPSTR(L_SETTINGS), F("Filesystem error, load default"));
      break;
    case FD_FILE_ERR:
      Log.swarningln(FPSTR(L_SETTINGS), F("Bad data, load default"));
      break;
    case FD_WRITE:
      Log.sinfoln(FPSTR(L_SETTINGS), F("Not found, load default"));
      break;
    case FD_ADD:
    case FD_READ:
      Log.sinfoln(FPSTR(L_SETTINGS), F("Loaded"));
      if (strcmp(SETTINGS_VALID_VALUE, settings.validationValue) != 0) {
        Log.swarningln(FPSTR(L_SETTINGS), F("Not valid, set default and restart..."));
        fsSettings.reset();
        ::delay(5000);
        ESP.restart();
      }
      break;
    default:
      break;
  }
  // logs
  if (!settings.system.serial.enable) {
    Serial.end();
    Log.clearStreams();
  } else if (settings.system.serial.baudrate != 115200) {
    Serial.end();
    Log.clearStreams();
    Serial.begin(settings.system.serial.baudrate);
    Log.addStream(&Serial);
  }
  if (settings.system.telnet.enable) {
    telnetStream = new ESPTelnetStream;
    telnetStream->setKeepAliveInterval(500);
    Log.addStream(telnetStream);
  }
  if (settings.system.logLevel >= TinyLogger::Level::SILENT && settings.system.logLevel <= TinyLogger::Level::VERBOSE) {
    Log.setLevel(static_cast<TinyLogger::Level>(settings.system.logLevel));
  }
  // network
  network = (new NetworkMgr)
    ->setHostname(networkSettings.hostname)
    ->setStaCredentials(
      strlen(networkSettings.sta.ssid) ? networkSettings.sta.ssid : nullptr,
      strlen(networkSettings.sta.password) ? networkSettings.sta.password : nullptr,
      networkSettings.sta.channel
    )->setApCredentials(
      strlen(networkSettings.ap.ssid) ? networkSettings.ap.ssid : nullptr,
      strlen(networkSettings.ap.password) ? networkSettings.ap.password : nullptr,
      networkSettings.ap.channel
    )
    ->setUseDhcp(networkSettings.useDhcp)
    ->setStaticConfig(
      networkSettings.staticConfig.ip,
      networkSettings.staticConfig.gateway,
      networkSettings.staticConfig.subnet,
      networkSettings.staticConfig.dns
    );
  // tasks
  tMqtt = new MqttTask(false, 500);
  Scheduler.start(tMqtt);
  tOt = new OpenThermTask(true, 750);
  Scheduler.start(tOt);
  tSensors = new SensorsTask(true, EXT_SENSORS_INTERVAL);
  Scheduler.start(tSensors);
  tRegulator = new RegulatorTask(true, 10000);
  Scheduler.start(tRegulator);
  tPortal = new PortalTask(true, 0);
  Scheduler.start(tPortal);
  tMain = new MainTask(true, 100);
  Scheduler.start(tMain);
  Scheduler.begin();
 }
 void loop() {
 #if defined(ARDUINO_ARCH_ESP32)
  vTaskDelete(NULL);
 #endif
 }
@@ -1,29 +0,0 @@
 #pragma once
 #ifndef PROGMEM
  #define PROGMEM 
 #endif
 const char L_SETTINGS[]             PROGMEM = "SETTINGS";
 const char L_SETTINGS_OT[]          PROGMEM = "SETTINGS.OT";
 const char L_SETTINGS_DHW[]         PROGMEM = "SETTINGS.DHW";
 const char L_SETTINGS_HEATING[]     PROGMEM = "SETTINGS.HEATING";
 const char L_NETWORK[]              PROGMEM = "NETWORK";
 const char L_NETWORK_SETTINGS[]     PROGMEM = "NETWORK.SETTINGS";
 const char L_PORTAL_WEBSERVER[]     PROGMEM = "PORTAL.WEBSERVER";
 const char L_PORTAL_DNSSERVER[]     PROGMEM = "PORTAL.DNSSERVER";
 const char L_PORTAL_CAPTIVE[]       PROGMEM = "PORTAL.CAPTIVE";
 const char L_PORTAL_OTA[]           PROGMEM = "PORTAL.OTA";
 const char L_MAIN[]                 PROGMEM = "MAIN";
 const char L_MQTT[]                 PROGMEM = "MQTT";
 const char L_MQTT_MSG[]             PROGMEM = "MQTT.MSG";
 const char L_OT[]                   PROGMEM = "OT";
 const char L_OT_DHW[]               PROGMEM = "OT.DHW";
 const char L_OT_HEATING[]           PROGMEM = "OT.HEATING";
 const char L_SENSORS_OUTDOOR[]      PROGMEM = "SENSORS.OUTDOOR";
 const char L_SENSORS_INDOOR[]       PROGMEM = "SENSORS.INDOOR";
 const char L_SENSORS_BLE[]          PROGMEM = "SENSORS.BLE";
 const char L_REGULATOR[]            PROGMEM = "REGULATOR";
 const char L_REGULATOR_PID[]        PROGMEM = "REGULATOR.PID";
 const char L_REGULATOR_EQUITHERM[]  PROGMEM = "REGULATOR.EQUITHERM";
 const char L_CASCADE_INPUT[]        PROGMEM = "CASCADE.INPUT";
 const char L_CASCADE_OUTPUT[]       PROGMEM = "CASCADE.OUTPUT";
@@ -1,78 +0,0 @@
 <?xml version="1.0" standalone="no"?>
 <!DOCTYPE svg PUBLIC "-//W3C//DTD SVG 1.1//EN" "http://www.w3.org/Graphics/SVG/1.1/DTD/svg11.dtd" >
 <svg xmlns="http://www.w3.org/2000/svg">
 <defs>
  <font id="iconly" horiz-adv-x="1024">
    <font-face font-family="iconly"
      units-per-em="1024" ascent="896"
      descent="128" />
    <missing-glyph horiz-adv-x="0" />
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 {
  "values": {
    "logo": "OpenTherm Gateway",
    "nav": {
      "license": "License",
      "source": "Source code",
      "help": "Help",
      "issues": "Issues & questions",
      "releases": "Releases"
    },
    "dbm": "dBm",
    "kw": "kW",
    "time": {
      "days": "d.",
      "hours": "h.",
      "min": "min.",
      "sec": "sec."
    },
    "button": {
      "upgrade": "Upgrade",
      "restart": "Restart",
      "save": "Save",
      "saved": "Saved",
      "refresh": "Refresh",
      "restore": "Restore",
      "restored": "Restored",
      "backup": "Backup",
      "wait": "Please wait...",
      "uploading": "Uploading...",
      "success": "Success",
      "error": "Error"
    },
    "index": {
      "title": "OpenTherm Gateway",
      "section": {
        "network": "Network",
        "system": "System"
      },
      "system": {
        "build": {
          "title": "Build",
          "version": "Version",
          "date": "Date",
          "core": "Core",
          "sdk": "SDK"
        },
        "uptime": "Uptime",
        "memory": {
          "title": "Free memory",
          "maxFreeBlock": "max free block",
          "min": "min"
        },
        "board": "Board",
        "chip": {
          "model": "Chip",
          "cores": "Cores",
          "freq": "frequency"
        },
        "flash": {
          "size": "Flash size",
          "realSize": "real size"
        },
        "lastResetReason": "Last reset reason"
      }
    },
    "dashboard": {
      "name": "Dashboard",
      "title": "Dashboard - OpenTherm Gateway",
      "section": {
        "control": "Control",
        "states": "States and sensors",
        "otDiag": "OpenTherm diagnostic"
      },
      "thermostat": {
        "heating": "Heating",
        "dhw": "DHW",
        "temp.current": "Current",
        "enable": "Enable",
        "turbo": "Turbo mode"
      },
      "state": {
        "ot": "OpenTherm connected",
        "mqtt": "MQTT connected",
        "emergency": "Emergency",
        "heating": "Heating",
        "dhw": "DHW",
        "flame": "Flame",
        "fault": "Fault",
        "diag": "Diagnostic",
        "extpump": "External pump",
        "outdoorSensorConnected": "Outdoor sensor connected",
        "outdoorSensorRssi": "Outdoor sensor RSSI",
        "outdoorSensorHumidity": "Outdoor sensor humidity",
        "outdoorSensorBattery": "Outdoor sensor battery",
        "indoorSensorConnected": "Indoor sensor connected",
        "cascadeControlInput": "Cascade control (input)",
        "cascadeControlOutput": "Cascade control (output)",
        "indoorSensorRssi": "Indoor sensor RSSI",
        "indoorSensorHumidity": "Indoor sensor humidity",
        "indoorSensorBattery": "Indoor sensor battery",
        "modulation": "Modulation",
        "pressure": "Pressure",
        "dhwFlowRate": "DHW flow rate",
        "power": "Current power",
        "faultCode": "Fault code",
        "diagCode": "Diagnostic code",
        "indoorTemp": "Indoor temp",
        "outdoorTemp": "Outdoor temp",
        "heatingTemp": "Heating temp",
        "heatingSetpointTemp": "Heating setpoint temp",
        "heatingReturnTemp": "Heating return temp",
        "dhwTemp": "DHW temp",
        "exhaustTemp": "Exhaust temp"
      }
    },
    "network": {
      "title": "Network - OpenTherm Gateway",
      "name": "Network settings",
      "section": {
        "static": "Static settings",
        "availableNetworks": "Available networks",
        "staSettings": "WiFi settings",
        "apSettings": "AP settings"
      },
      "scan": {
        "pos": "#",
        "info": "Info"
      },
      "wifi": {
        "ssid": "SSID",
        "password": "Password",
        "channel": "Channel",
        "signal": "Signal",
        "connected": "Connected"
      },
      "params": {
        "hostname": "Hostname",
        "dhcp": "Use DHCP",
        "mac": "MAC",
        "ip": "IP",
        "subnet": "Subnet",
        "gateway": "Gateway",
        "dns": "DNS"
      },
      "sta": {
        "channel.note": "set 0 for auto select"
      }
    },
    "settings": {
      "title": "Settings - OpenTherm Gateway",
      "name": "Settings",
      "section": {
        "portal": "Portal settings",
        "system": "System settings",
        "diag": "Diagnostic",
        "heating": "Heating settings",
        "dhw": "DHW settings",
        "emergency": "Emergency mode settings",
        "equitherm": "Equitherm settings",
        "pid": "PID settings",
        "ot": "OpenTherm settings",
        "mqtt": "MQTT settings",
        "outdorSensor": "Outdoor sensor settings",
        "indoorSensor": "Indoor sensor settings",
        "extPump": "External pump settings",
        "cascadeControl": "Cascade control settings"
      },
      "enable": "Enable",
      "note": {
        "restart": "After changing these settings, the device must be restarted for the changes to take effect.",
        "blankNotUse": "blank - not use",
        "bleDevice": "BLE device can be used <u>only</u> with some ESP32 boards with BLE support!"
      },
      "temp": {
        "min": "Minimum temperature",
        "max": "Maximum temperature"
      },
      "portal": {
        "login": "Login",
        "password": "Password",
        "auth": "Require authentication"
      },
      "system": {
        "unit": "Unit system",
        "metric": "Metric <small>(celsius, liters, bar)</small>",
        "imperial": "Imperial <small>(fahrenheit, gallons, psi)</small>",
        "statusLedGpio": "Status LED GPIO",
        "logLevel": "Log level",
        "serial": {
          "enable": "Enable Serial port",
          "baud": "Serial port baud rate"
        },
        "telnet": {
          "enable": "Enable Telnet",
          "port": {
            "title": "Telnet port",
            "note": "Default: 23"
          }
        }
      },
      "heating": {
        "hyst": "Hysteresis <small>(in degrees)</small>",
        "turboFactor": "Turbo mode coeff."
      },
      "emergency": {
        "desc": "Emergency mode is activated automatically when «PID» or «Equitherm» cannot calculate the heat carrier setpoint:<br />- if «Equitherm» is enabled and the outdoor temperature sensor is disconnected;<br />- if «PID» or OT option <i>«Native heating control»</i> is enabled and the indoor temperature sensor is disconnected.<br /><b>Note:</b> On network fault or MQTT fault, sensors with <i>«Manual via MQTT/API»</i> type will be in DISCONNECTED state.",
        "target": {
          "title": "Target temperature",
          "note": "<b>Important:</b> <u>Target indoor temperature</u> if OT option <i>«Native heating control»</i> is enabled.<br />In all other cases, the <u>target heat carrier temperature</u>."
        },
        "treshold": "Treshold time <small>(sec)</small>"
      },
      "equitherm": {
        "n": "N factor",
        "k": "K factor",
        "t": {
          "title": "T factor",
          "note": "Not used if PID is enabled"
        }
      },
      "pid": {
        "p": "P factor",
        "i": "I factor",
        "d": "D factor",
        "dt": "DT <small>in seconds</small>",
        "noteMinMaxTemp": "<b>Important:</b> When using «Equitherm» and «PID» at the same time, the min and max temperatures limit the influence on the «Equitherm» result temperature.<br />Thus, if the min temperature is set to -15 and the max temperature is set to 15, then the final heat carrier setpoint will be from <code>equitherm_result - 15</code> to <code>equitherm_result + 15</code>."
      },
      "ot": {
        "advanced": "Advanced Settings",
        "inGpio": "In GPIO",
        "outGpio": "Out GPIO",
        "ledGpio": "RX LED GPIO",
        "memberIdCode": "Master MemberID code",
        "maxMod": "Max modulation level",
        "pressureFactor": {
          "title": "Coeff. pressure correction",
          "note": "If the pressure displayed is <b>X10</b> from the real one, set the <b>0.1</b>."
        },
        "dhwFlowRateFactor": {
          "title": "Coeff. DHW flow rate correction",
          "note": "If the DHW flow rate displayed is <b>X10</b> from the real one, set the <b>0.1</b>."
        },
        "minPower": {
          "title": "Min boiler power <small>(kW)</small>",
          "note": "This value is at 0-1% boiler modulation level. Typically found in the boiler specification as \"minimum useful heat output\"."
        },
        "maxPower": {
          "title": "Max boiler power <small>(kW)</small>",
          "note": "<b>0</b> - try detect automatically. Typically found in the boiler specification as \"maximum useful heat output\"."
        },
        "fnv": {
          "desc": "Filtering numeric values",
          "enable": {
            "title": "Enable filtering",
            "note": "It can be useful if there is a lot of sharp noise on the charts. The filter used is \"Running Average\"."
          },
          "factor": {
            "title": "Filtration coeff.",
            "note": "The lower the value, the smoother and <u>longer</u> the change in numeric values."
          }
        },
        "options": {
          "desc": "Options",
          "dhwPresent": "DHW present",
          "summerWinterMode": "Summer/winter mode",
          "heatingCh2Enabled": "Heating CH2 always enabled",
          "heatingCh1ToCh2": "Duplicate heating CH1 to CH2",
          "dhwToCh2": "Duplicate DHW to CH2",
          "dhwBlocking": "DHW blocking",
          "modulationSyncWithHeating": "Sync modulation with heating",
          "getMinMaxTemp": "Get min/max temp from boiler",
          "immergasFix": "Fix for Immergas boilers"
        },
        "nativeHeating": {
          "title": "Native heating control (boiler)",
          "note": "Works <u>ONLY</u> if the boiler requires the desired room temperature and regulates the temperature of the coolant itself. Not compatible with PID and Equitherm regulators in firmware."
        }
      },
      "mqtt": {
        "homeAssistantDiscovery": "Home Assistant Discovery",
        "server": "Server",
        "port": "Port",
        "user": "User",
        "password": "Password",
        "prefix": "Prefix",
        "interval": "Publish interval <small>(sec)</small>"
      },
      "tempSensor": {
        "source": {
          "type": "Source type",
          "boilerOutdoor": "From boiler via OpenTherm",
          "boilerReturn": "Return heat carrier temp via OpenTherm",
          "manual": "Manual via MQTT/API",
          "ext": "External (DS18B20)",
          "ble": "BLE device"
        },
        "gpio": "GPIO",
        "offset": "Temp offset <small>(calibration)</small>",
        "bleAddress": "BLE device MAC address"
      },
      "extPump": {
        "use": "Use external pump",
        "gpio": "Relay GPIO",
        "postCirculationTime": "Post circulation time <small>(min)</small>",
        "antiStuckInterval": "Anti stuck interval <small>(days)</small>",
        "antiStuckTime": "Anti stuck time <small>(min)</small>"
      },
      "cascadeControl": {
        "input": {
          "desc": "Can be used to turn on the heating only if another boiler is faulty. The other boiler controller must change the state of the GPIO input in the event of a fault.",
          "enable": "Enable input",
          "gpio": "GPIO",
          "invertState": "Invert GPIO state",
          "thresholdTime": "State change threshold time <small>(sec)</small>"
        },
        "output": {
          "desc": "Can be used to switch on another boiler <u>via relay</u>.",
          "enable": "Enable output",
          "gpio": "GPIO",
          "invertState": "Invert GPIO state",
          "thresholdTime": "State change threshold time <small>(sec)</small>",
          "events": {
            "desc": "Events",
            "onFault": "If the fault state is active",
            "onLossConnection": "If the connection via Opentherm is lost",
            "onEnabledHeating": "If heating is enabled"
          }
        }
      }
    },
    "upgrade": {
      "title": "Upgrade - OpenTherm Gateway",
      "name": "Upgrade",
      "section": {
        "backupAndRestore": "Backup & restore",
        "backupAndRestore.desc": "In this section you can save and restore a backup of ALL settings.",
        "upgrade": "Upgrade",
        "upgrade.desc": "In this section you can upgrade the firmware and filesystem of your device.<br />Latest releases can be downloaded from the <a href=\"https://github.com/Laxilef/OTGateway/releases\" target=\"_blank\">Releases page</a> of the project repository." 
      },
      "note": {
        "disclaimer1": "After a successful upgrade the filesystem, ALL settings will be reset to default values! Save backup before upgrading.",
        "disclaimer2": "After a successful upgrade, the device will automatically reboot after 10 seconds."
      },
      "settingsFile": "Settings file",
      "fw": "Firmware",
      "fs": "Filesystem"
    }
  }
 }
@@ -1,399 +0,0 @@
 {
  "values": {
    "logo": "OpenTherm Gateway",
    "nav": {
      "license": "Лицензия",
      "source": "Исходный код",
      "help": "Помощь",
      "issues": "Проблемы и вопросы",
      "releases": "Релизы"
    },
    "dbm": "дБм",
    "kw": "кВт",
    "time": {
      "days": "д.",
      "hours": "ч.",
      "min": "мин.",
      "sec": "сек."
    },
    "button": {
      "upgrade": "Обновить",
      "restart": "Перезагрузка",
      "save": "Сохранить",
      "saved": "Сохранено",
      "refresh": "Обновить",
      "restore": "Восстановить настройки",
      "restored": "Восстановлено",
      "backup": "Сохранить настройки",
      "wait": "Пожалуйста, подождите...",
      "uploading": "Загрузка...",
      "success": "Успешно",
      "error": "Ошибка"
    },
    "index": {
      "title": "OpenTherm Gateway",
      "section": {
        "network": "Сеть",
        "system": "Система"
      },
      "system": {
        "build": {
          "title": "Билд",
          "version": "Версия",
          "date": "Дата",
          "core": "Ядро",
          "sdk": "SDK"
        },
        "uptime": "Аптайм",
        "memory": {
          "title": "ОЗУ",
          "maxFreeBlock": "макс. блок",
          "min": "мин."
        },
        "board": "Плата",
        "chip": {
          "model": "Чип",
          "cores": "Кол-во ядер",
          "freq": "частота"
        },
        "flash": {
          "size": "Размер ПЗУ",
          "realSize": "реальный размер"
        },
        "lastResetReason": "Причина перезагрузки"
      }
    },
    "dashboard": {
      "name": "Дашборд",
      "title": "Дашборд - OpenTherm Gateway",
      "section": {
        "control": "Управление",
        "states": "Состояние и сенсоры",
        "otDiag": "Диагностика OpenTherm"
      },
      "thermostat": {
        "heating": "Отопление",
        "dhw": "ГВС",
        "temp.current": "Текущая",
        "enable": "Вкл",
        "turbo": "Турбо"
      },
      "state": {
        "ot": "OpenTherm подключение",
        "mqtt": "MQTT подключение",
        "emergency": "Аварийный режим",
        "heating": "Отопление",
        "dhw": "ГВС",
        "flame": "Пламя",
        "fault": "Ошибка",
        "diag": "Диагностика",
        "extpump": "Внешний насос",
        "outdoorSensorConnected": "Датчик наруж. темп.",
        "outdoorSensorRssi": "RSSI датчика наруж. темп.",
        "outdoorSensorHumidity": "Влажность с наруж. датчика темп.",
        "outdoorSensorBattery": "Заряд наруж. датчика темп.",
        "indoorSensorConnected": "Датчик внутр. темп.",
        "cascadeControlInput": "Каскадное управление (вход)",
        "cascadeControlOutput": "Каскадное управление (выход)",
        "indoorSensorRssi": "RSSI датчика внутр. темп.",
        "indoorSensorHumidity": "Влажность с внутр. датчика темп.",
        "indoorSensorBattery": "Заряд внутр. датчика темп.",
        "modulation": "Уровень модуляции",
        "pressure": "Давление",
        "dhwFlowRate": "Расход ГВС",
        "power": "Текущая мощность",
        "faultCode": "Код ошибки",
        "diagCode": "Диагностический код",
        "indoorTemp": "Внутренняя темп.",
        "outdoorTemp": "Наружная темп.",
        "heatingTemp": "Темп. отопления",
        "heatingSetpointTemp": "Уставка темп. отопления",
        "heatingReturnTemp": "Темп. обратки отопления",
        "dhwTemp": "Темп. ГВС",
        "exhaustTemp": "Темп. выхлопных газов"
      }
    },
    "network": {
      "title": "Сеть - OpenTherm Gateway",
      "name": "Настройки сети",
      "section": {
        "static": "Статические параметры",
        "availableNetworks": "Доступные сети",
        "staSettings": "Настройки подключения",
        "apSettings": "Настройки точки доступа"
      },
      "scan": {
        "pos": "#",
        "info": "Инфо"
      },
      "wifi": {
        "ssid": "Имя сети",
        "password": "Пароль",
        "channel": "Канал",
        "signal": "Сигнал",
        "connected": "Подключено"
      },
      "params": {
        "hostname": "Имя хоста",
        "dhcp": "Использовать DHCP",
        "mac": "MAC адрес",
        "ip": "IP адрес",
        "subnet": "Адрес подсети",
        "gateway": "Адрес шлюза",
        "dns": "DNS адрес"
      },
      "sta": {
        "channel.note": "установите 0 для автоматического выбора"
      }
    },
    "settings": {
      "title": "Настройки - OpenTherm Gateway",
      "name": "Настройки",
      "section": {
        "portal": "Настройки портала",
        "system": "Системные настройки",
        "diag": "Диагностика",
        "heating": "Настройки отопления",
        "dhw": "Настройки ГВС",
        "emergency": "Настройки аварийного режима",
        "equitherm": "Настройки ПЗА",
        "pid": "Настройки ПИД",
        "ot": "Настройки OpenTherm",
        "mqtt": "Настройки MQTT",
        "outdorSensor": "Настройки наружного датчика температуры",
        "indoorSensor": "Настройки внутреннего датчика температуры",
        "extPump": "Настройки дополнительного насоса",
        "cascadeControl": "Настройки каскадного управления"
      },
      "enable": "Вкл",
      "note": {
        "restart": "После изменения этих настроек устройство необходимо перезагрузить, чтобы изменения вступили в силу.",
        "blankNotUse": "пусто - не использовать",
        "bleDevice": "BLE устройство можно использовать <u>только</u> с некоторыми платами ESP32, которые поддерживают BLE!"
      },
      "temp": {
        "min": "Мин. температура",
        "max": "Макс. температура"
      },
      "portal": {
        "login": "Логин",
        "password": "Пароль",
        "auth": "Требовать аутентификацию"
      },
      "system": {
        "unit": "Система единиц",
        "metric": "Метрическая <small>(цильсии, литры, бары)</small>",
        "imperial": "Imperial <small>(фаренгейты, галлоны, psi)</small>",
        "statusLedGpio": "Статус LED GPIO",
        "logLevel": "Уровень логирования",
        "serial": {
          "enable": "Вкл. Serial порт",
          "baud": "Скорость Serial порта"
        },
        "telnet": {
          "enable": "Вкл. Telnet",
          "port": {
            "title": "Telnet порт",
            "note": "По умолчанию: 23"
          }
        }
      },
      "heating": {
        "hyst": "Гистерезис <small>(в градусах)</small>",
        "turboFactor": "Коэфф. турбо режима"
      },
      "emergency": {
        "desc": "Аварийный режим активируется автоматически, если «ПИД» или «ПЗА» не могут рассчитать уставку теплоносителя:<br />- если «ПЗА» включен и датчик наружной температуры отключен;<br />- если включен «ПИД» или OT опция <i>«Передать управление отоплением котлу»</i> и датчик внутренней температуры отключен.<br /><b>Примечание:</b> При сбое сети или MQTT датчики с типом <i>«Вручную через MQTT/API»</i> будут находиться в состоянии ОТКЛЮЧЕН.",
        "target": {
          "title": "Целевая температура",
          "note": "<b>Важно:</b> <u>Целевая температура в помещении</u>, если включена ОТ опция <i>«Передать управление отоплением котлу»</i>.<br />Во всех остальных случаях <u>целевая температура теплоносителя</u>."
        },
        "treshold": "Пороговое время включения <small>(сек)</small>",
        "events": {
          "desc": "События",
          "network": "При отключении сети",
          "mqtt": "При отключении MQTT",
          "indoorSensorDisconnect": "При потере связи с датчиком внутренней темп.",
          "outdoorSensorDisconnect": "При потере связи с датчиком наружной темп."
        },
        "regulators": {
          "desc": "Используемые регуляторы",
          "equitherm": "ПЗА <small>(требуется внешний (DS18B20) или подключенный к котлу датчик <u>наружной</u> температуры)</small>",
          "pid": "ПИД <small>(требуется внешний (DS18B20) датчик <u>внутренней</u> температуры)</small>"
        }
      },
      "equitherm": {
        "n": "Коэффициент N",
        "k": "Коэффициент K",
        "t": {
          "title": "Коэффициент T",
          "note": "Не используется, если ПИД включен"
        }
      },
      "pid": {
        "p": "Коэффициент P",
        "i": "Коэффициент I",
        "d": "Коэффициент D",
        "dt": "DT <small>(сек)</small>",
        "noteMinMaxTemp": "<b>Важно:</b> При использовании «ПЗА» и «ПИД» одновременно, мин. и макс. температура ограничивает влияние на расчётную температуру «ПЗА».<br />Таким образом, если мин. температура задана как -15, а макс. как 15, то конечная температура теплоносителя будет от <code>equitherm_result - 15</code> до <code>equitherm_result + 15</code>."
      },
      "ot": {
        "advanced": "Дополнительные настройки",
        "inGpio": "Вход GPIO",
        "outGpio": "Выход GPIO",
        "ledGpio": "RX LED GPIO",
        "memberIdCode": "Master MemberID код",
        "maxMod": "Макс. уровень модуляции",
        "pressureFactor": {
          "title": "Коэфф. коррекции давления",
          "note": "Если давление отображается <b>Х10</b> от реального, установите значение <b>0.1</b>."
        },
        "dhwFlowRateFactor": {
          "title": "Коэфф. коррекции потока ГВС",
          "note": "Если поток ГВС отображается <b>Х10</b> от реального, установите значение <b>0.1</b>."
        },
        "minPower": {
          "title": "Мин. мощность котла <small>(кВт)</small>",
          "note": "Это значение соответствует уровню модуляции котла 0–1%. Обычно можно найти в спецификации котла как \"минимальная полезная тепловая мощность\"."
        },
        "maxPower": {
          "title": "Макс. мощность котла <small>(кВт)</small>",
          "note": "<b>0</b> - попробовать определить автоматически. Обычно можно найти в спецификации котла как \"максимальная полезная тепловая мощность\"."
        },
        "fnv": {
          "desc": "Фильтрация числовых значений",
          "enable": {
            "title": "Включить фильтрацию",
            "note": "Может быть полезно, если на графиках много резкого шума. В качестве фильтра используется \"бегущее среднее\"."
          },
          "factor": {
            "title": "Коэфф. фильтрации",
            "note": "Чем меньше коэф., тем плавнее и <u>дольше</u> изменение числовых значений."
          }
        },
        "options": {
          "desc": "Опции",
          "dhwPresent": "Контур ГВС",
          "summerWinterMode": "Летний/зимний режим",
          "heatingCh2Enabled": "Канал 2 отопления всегда вкл.",
          "heatingCh1ToCh2": "Дублировать параметры отопления канала 1 в канал 2",
          "dhwToCh2": "Дублировать параметры ГВС в канал 2",
          "dhwBlocking": "DHW blocking",
          "modulationSyncWithHeating": "Синхронизировать модуляцию с отоплением",
          "getMinMaxTemp": "Получать мин. и макс. температуру от котла",
          "immergasFix": "Фикс для котлов Immergas"
        },
        "nativeHeating": {
          "title": "Передать управление отоплением котлу",
          "note": "Работает <u>ТОЛЬКО</u> если котел требует и принимает целевую температуру в помещении и сам регулирует температуру теплоносителя на основе встроенного режима кривых. Несовместимо с ПИД и ПЗА."
        }
      },
      "mqtt": {
        "homeAssistantDiscovery": "Home Assistant Discovery",
        "server": "Адрес сервера",
        "port": "Порт",
        "user": "Имя пользователя",
        "password": "Пароль",
        "prefix": "Префикс",
        "interval": "Интервал публикации <small>(сек)</small>"
      },
      "tempSensor": {
        "source": {
          "type": "Источник данных",
          "boilerOutdoor": "От котла через OpenTherm",
          "boilerReturn": "Температура обратки через OpenTherm",
          "manual": "Вручную через MQTT/API",
          "ext": "Внешний датчик (DS18B20)",
          "ble": "BLE устройство"
        },
        "gpio": "GPIO",
        "offset": "Смещение температуры <small>(калибровка)</small>",
        "bleAddress": "MAC адрес BLE устройства"
      },
      "extPump": {
        "use": "Использовать доп. насос",
        "gpio": "GPIO реле",
        "postCirculationTime": "Время постциркуляции <small>(в минутах)</small>",
        "antiStuckInterval": "Интервал защиты от блокировки <small>(в днях)</small>",
        "antiStuckTime": "Время работы насоса <small>(в минутах)</small>"
      },
      "cascadeControl": {
        "input": {
          "desc": "Может использоваться для включения отопления только при неисправности другого котла. Контроллер другого котла должен изменить состояние входа GPIO в случае неисправности.",
          "enable": "Включить вход",
          "gpio": "GPIO",
          "invertState": "Инвертировать состояние GPIO",
          "thresholdTime": "Пороговое время изменения состояния <small>(сек)</small>"
        },
        "output": {
          "desc": "Может использоваться для включения другого котла <u>через реле</u>.",
          "enable": "Включить выход",
          "gpio": "GPIO",
          "invertState": "Инвертировать состояние GPIO",
          "thresholdTime": "Пороговое время изменения состояния <small>(сек)</small>",
          "events": {
            "title": "События",
            "onFault": "Если состояние fault (ошибки) активно",
            "onLossConnection": "Если соединение по OpenTherm потеряно",
            "onEnabledHeating": "Если отопление включено"
          }
        }
      }
    },
    "upgrade": {
      "title": "Обновление - OpenTherm Gateway",
      "name": "Обновление",
      "section": {
        "backupAndRestore": "Резервное копирование и восстановление",
        "backupAndRestore.desc": "В этом разделе вы можете сохранить и восстановить резервную копию ВСЕХ настроек.",
        "upgrade": "Обновление",
        "upgrade.desc": "В этом разделе вы можете обновить прошивку и файловую систему вашего устройства.<br />Последнюю версию можно загрузить со страницы <a href=\"https://github.com/Laxilef/OTGateway/releases\" target=\"_blank\">Релизы</a> в репозитории проекта." 
      },
      "note": {
        "disclaimer1": "После успешного обновления файловой системы ВСЕ настройки будут сброшены на стандартные! Создайте резервную копию ПЕРЕД обновлением.",
        "disclaimer2": "После успешного обновления устройство автоматически перезагрузится через 10 секунд."
      },
      "settingsFile": "Файл настроек",
      "fw": "Прошивка",
      "fs": "Файловая система"
    }
  }
 }
@@ -1,496 +0,0 @@
 <!doctype html>
 <html lang="en">
  <head>
    <meta charset="utf-8" />
    <meta name="viewport" content="width=device-width, initial-scale=1" />
    <title data-i18n>dashboard.title</title>
    <link rel="stylesheet" href="/static/app.css" />
  </head>
  <body>
    <header class="container">
      <nav>
        <ul>
          <li><a href="/">
              <div class="logo" data-i18n>logo</div>
            </a></li>
        </ul>
        <ul>
          <!--<li><a href="https://github.com/Laxilef/OTGateway/wiki" role="button" class="secondary" target="_blank">Help</a></li>-->
          <li>
            <select id="lang" aria-label="Lang">
              <option value="en" selected>EN</option>
              <option value="ru">RU</option>
            </select>
          </li>
        </ul>
      </nav>
    </header>
    <main class="container">
      <article>
        <hgroup>
          <h2 data-i18n>dashboard.name</h2>
          <p></p>
        </hgroup>
        <div id="dashboard-busy" aria-busy="true"></div>
        <div id="dashboard-container" class="hidden">
          <details open>
            <summary><b data-i18n>dashboard.section.control</b></summary>
            <div class="grid">
              <div class="thermostat" id="thermostat-heating">
                <div class="thermostat-header" data-i18n>dashboard.thermostat.heating</div>
                <div class="thermostat-temp">
                  <div class="thermostat-temp-target"><span id="thermostat-heating-target"></span> <span class="temp-unit"></span></div>
                  <div class="thermostat-temp-current"><span data-i18n>dashboard.thermostat.temp.current</span>: <span id="thermostat-heating-current"></span> <span class="temp-unit"></span></div>
                </div>
                <div class="thermostat-minus"><button id="thermostat-heating-minus" class="outline"><i class="icons-down"></i></button></div>
                <div class="thermostat-plus"><button id="thermostat-heating-plus" class="outline"><i class="icons-up"></i></button></div>
                <div class="thermostat-control">
                  <input type="checkbox" role="switch" id="thermostat-heating-enabled" value="true">
                  <label htmlFor="thermostat-heating-enabled" data-i18n>dashboard.thermostat.enable</label>
                  <input type="checkbox" role="switch" id="thermostat-heating-turbo" value="true">
                  <label htmlFor="thermostat-heating-turbo" data-i18n>dashboard.thermostat.turbo</label>
                </div>
              </div>
              <div class="thermostat" id="thermostat-dhw">
                <div class="thermostat-header" data-i18n>dashboard.thermostat.dhw</div>
                <div class="thermostat-temp">
                  <div class="thermostat-temp-target"><span id="thermostat-dhw-target"></span> <span class="temp-unit"></span></div>
                  <div class="thermostat-temp-current"><span data-i18n>dashboard.thermostat.temp.current</span>: <span id="thermostat-dhw-current"></span> <span class="temp-unit"></span></div>
                </div>
                <div class="thermostat-minus"><button class="outline" id="thermostat-dhw-minus"><i class="icons-down"></i></button></div>
                <div class="thermostat-plus"><button class="outline" id="thermostat-dhw-plus"><i class="icons-up"></i></button></div>
                <div class="thermostat-control">
                  <input type="checkbox" role="switch" id="thermostat-dhw-enabled" value="true">
                  <label htmlFor="thermostat-dhw-enabled" data-i18n>dashboard.thermostat.enable</label>
                </div>
              </div>
            </div>
          </details>
          <hr />
          <details>
            <summary><b data-i18n>dashboard.section.states</b></summary>
            <table>
              <tbody>
                <tr>
                  <th scope="row" data-i18n>dashboard.state.ot</th>
                  <td><input type="radio" id="ot-connected" aria-invalid="false" checked disabled /></td>
                </tr>
                <tr>
                  <th scope="row" data-i18n>dashboard.state.mqtt</th>
                  <td><input type="radio" id="mqtt-connected" aria-invalid="false" checked disabled /></td>
                </tr>
                <tr>
                  <th scope="row" data-i18n>dashboard.state.emergency</th>
                  <td><input type="radio" id="ot-emergency" aria-invalid="false" checked disabled /></td>
                </tr>
                <tr>
                  <th scope="row" data-i18n>dashboard.state.heating</th>
                  <td><input type="radio" id="ot-heating" aria-invalid="false" checked disabled /></td>
                </tr>
                <tr>
                  <th scope="row" data-i18n>dashboard.state.dhw</th>
                  <td><input type="radio" id="ot-dhw" aria-invalid="false" checked disabled /></td>
                </tr>
                <tr>
                  <th scope="row" data-i18n>dashboard.state.flame</th>
                  <td><input type="radio" id="ot-flame" aria-invalid="false" checked disabled /></td>
                </tr>
                <tr>
                  <th scope="row" data-i18n>dashboard.state.fault</th>
                  <td><input type="radio" id="ot-fault" aria-invalid="false" checked disabled /></td>
                </tr>
                <tr>
                  <th scope="row" data-i18n>dashboard.state.diag</th>
                  <td><input type="radio" id="ot-diagnostic" aria-invalid="false" checked disabled /></td>
                </tr>
                <tr>
                  <th scope="row" data-i18n>dashboard.state.extpump</th>
                  <td><input type="radio" id="ot-external-pump" aria-invalid="false" checked disabled /></td>
                </tr>
                <tr>
                  <th scope="row" data-i18n>dashboard.state.outdoorSensorConnected</th>
                  <td><input type="radio" id="outdoor-sensor-connected" aria-invalid="false" checked disabled /></td>
                </tr>
                <tr>
                  <th scope="row" data-i18n>dashboard.state.outdoorSensorRssi</th>
                  <td><b id="outdoor-sensor-rssi"></b> <span data-i18n>dbm</span></td>
                </tr>
                <tr>
                  <th scope="row" data-i18n>dashboard.state.outdoorSensorHumidity</th>
                  <td><b id="outdoor-sensor-humidity"></b> %</td>
                </tr>
                <tr>
                  <th scope="row" data-i18n>dashboard.state.outdoorSensorBattery</th>
                  <td><b id="outdoor-sensor-battery"></b> %</td>
                </tr>
                <tr>
                  <th scope="row" data-i18n>dashboard.state.indoorSensorConnected</th>
                  <td><input type="radio" id="indoor-sensor-connected" aria-invalid="false" checked disabled /></td>
                </tr>
                <tr>
                  <th scope="row" data-i18n>dashboard.state.cascadeControlInput</th>
                  <td><input type="radio" id="cc-input" aria-invalid="false" checked disabled /></td>
                </tr>
                <tr>
                  <th scope="row" data-i18n>dashboard.state.cascadeControlOutput</th>
                  <td><input type="radio" id="cc-output" aria-invalid="false" checked disabled /></td>
                </tr>
                <tr>
                  <th scope="row" data-i18n>dashboard.state.indoorSensorRssi</th>
                  <td><b id="indoor-sensor-rssi"></b> <span data-i18n>dbm</span></td>
                </tr>
                <tr>
                  <th scope="row" data-i18n>dashboard.state.indoorSensorHumidity</th>
                  <td><b id="indoor-sensor-humidity"></b> %</td>
                </tr>
                <tr>
                  <th scope="row" data-i18n>dashboard.state.indoorSensorBattery</th>
                  <td><b id="indoor-sensor-battery"></b> %</td>
                </tr>
                <tr>
                  <th scope="row" data-i18n>dashboard.state.modulation</th>
                  <td><b id="ot-modulation"></b> %</td>
                </tr>
                <tr>
                  <th scope="row" data-i18n>dashboard.state.pressure</th>
                  <td><b id="ot-pressure"></b> <span class="pressure-unit"></span></td>
                </tr>
                <tr>
                  <th scope="row" data-i18n>dashboard.state.dhwFlowRate</th>
                  <td><b id="ot-dhw-flow-rate"></b> <span class="volume-unit"></span>/min</td>
                </tr>
                <tr>
                  <th scope="row" data-i18n>dashboard.state.power</th>
                  <td><b id="ot-power"></b> <span data-i18n>kw</span></td>
                </tr>
                <tr>
                  <th scope="row" data-i18n>dashboard.state.faultCode</th>
                  <td><b id="ot-fault-code"></b></td>
                </tr>
                <tr>
                  <th scope="row" data-i18n>dashboard.state.diagCode</th>
                  <td><b id="ot-diag-code"></b></td>
                </tr>
                <tr>
                  <th scope="row" data-i18n>dashboard.state.indoorTemp</th>
                  <td><b id="indoor-temp"></b> <span class="temp-unit"></span></td>
                </tr>
                <tr>
                  <th scope="row" data-i18n>dashboard.state.outdoorTemp</th>
                  <td><b id="outdoor-temp"></b> <span class="temp-unit"></span></td>
                </tr>
                <tr>
                  <th scope="row" data-i18n>dashboard.state.heatingTemp</th>
                  <td><b id="heating-temp"></b> <span class="temp-unit"></span></td>
                </tr>
                <tr>
                  <th scope="row" data-i18n>dashboard.state.heatingSetpointTemp</th>
                  <td><b id="heating-setpoint-temp"></b> <span class="temp-unit"></span></td>
                </tr>
                <tr>
                  <th scope="row" data-i18n>dashboard.state.heatingReturnTemp</th>
                  <td><b id="heating-return-temp"></b> <span class="temp-unit"></span></td>
                </tr>
                <tr>
                  <th scope="row" data-i18n>dashboard.state.dhwTemp</th>
                  <td><b id="dhw-temp"></b> <span class="temp-unit"></span></td>
                </tr>
                <tr>
                  <th scope="row" data-i18n>dashboard.state.exhaustTemp</th>
                  <td><b id="exhaust-temp"></b> <span class="temp-unit"></span></td>
                </tr>
              </tbody>
            </table>
          </details>
          <hr />
          <details>
            <summary><b data-i18n>dashboard.section.otDiag</b></summary>
            <pre><b>Vendor:</b>          <span id="slave-vendor"></span>
 <b>Member ID:</b>       <span id="slave-member-id"></span>
 <b>Flags:</b>           <span id="slave-flags"></span>
 <b>Type:</b>            <span id="slave-type"></span>
 <b>Version:</b>         <span id="slave-version"></span>
 <b>OT version:</b>      <span id="slave-ot-version"></span>
 <b>Heating limits:</b>  <span id="heating-min-temp"></span>...<span id="heating-max-temp"></span> <span class="temp-unit"></span>
 <b>DHW limits:</b>      <span id="dhw-min-temp"></span>...<span id="dhw-max-temp"></span> <span class="temp-unit"></span></pre>
          </details>
        </div>
      </article>
    </main>
    <footer class="container">
      <small>
        <b>Made by Laxilef</b>
        • <a href="https://github.com/Laxilef/OTGateway/blob/master/LICENSE" target="_blank" class="secondary" data-i18n>nav.license</a>
        • <a href="https://github.com/Laxilef/OTGateway/blob/master/" target="_blank" class="secondary" data-i18n>nav.source</a>
        • <a href="https://github.com/Laxilef/OTGateway/wiki" target="_blank" class="secondary" data-i18n>nav.help</a>
        • <a href="https://github.com/Laxilef/OTGateway/issues" target="_blank" class="secondary" data-i18n>nav.issues</a>
        • <a href="https://github.com/Laxilef/OTGateway/releases" target="_blank" class="secondary" data-i18n>nav.releases</a>
      </small>
    </footer>
    <script src="/static/app.js"></script>
    <script>
      let modifiedTime = null;
      let noRegulators;
      let prevSettings;
      let newSettings = {
        heating: {
          enable: false,
          turbo: false,
          target: 0
        },
        dhw: {
          enable: false,
          target: 0
        }
      };
      document.addEventListener('DOMContentLoaded', async () => {
        const lang = new Lang(document.getElementById('lang'));
        lang.build();
        document.querySelector('#thermostat-heating-minus').addEventListener('click', (event) => {
          if (!prevSettings) {
            return;
          }
          newSettings.heating.target -= 0.5;
          modifiedTime = Date.now();
          let minTemp;
          if (noRegulators) {
            minTemp = prevSettings.heating.minTemp;
          } else {
            minTemp = prevSettings.system.unitSystem == 0 ? 5 : 41;
          }
          if (prevSettings && newSettings.heating.target < minTemp) {
            newSettings.heating.target = minTemp;
          }
          setValue('#thermostat-heating-target', newSettings.heating.target);
        });
        document.querySelector('#thermostat-heating-plus').addEventListener('click', (event) => {
          if (!prevSettings) {
            return;
          }
          newSettings.heating.target += 0.5;
          modifiedTime = Date.now();
          let maxTemp;
          if (noRegulators) {
            maxTemp = prevSettings.heating.maxTemp;
          } else {
            maxTemp = prevSettings.system.unitSystem == 0 ? 30 : 86;
          }
          if (prevSettings && newSettings.heating.target > maxTemp) {
            newSettings.heating.target = maxTemp;
          }
          setValue('#thermostat-heating-target', newSettings.heating.target);
        });
        document.querySelector('#thermostat-dhw-minus').addEventListener('click', (event) => {
          if (!prevSettings) {
            return;
          }
          newSettings.dhw.target -= 1.0;
          modifiedTime = Date.now();
          if (newSettings.dhw.target < prevSettings.dhw.minTemp) {
            newSettings.dhw.target = prevSettings.dhw.minTemp;
          }
          setValue('#thermostat-dhw-target', newSettings.dhw.target);
        });
        document.querySelector('#thermostat-dhw-plus').addEventListener('click', (event) => {
          if (!prevSettings) {
            return;
          }
          newSettings.dhw.target += 1.0;
          modifiedTime = Date.now();
          if (newSettings.dhw.target > prevSettings.dhw.maxTemp) {
            newSettings.dhw.target = prevSettings.dhw.maxTemp;
          }
          setValue('#thermostat-dhw-target', newSettings.dhw.target);
        });
        document.querySelector('#thermostat-heating-enabled').addEventListener('change', (event) => {
          modifiedTime = Date.now();
          newSettings.heating.enable = event.currentTarget.checked;
        });
        document.querySelector('#thermostat-heating-turbo').addEventListener('change', (event) => {
          modifiedTime = Date.now();
          newSettings.heating.turbo = event.currentTarget.checked;
        });
        document.querySelector('#thermostat-dhw-enabled').addEventListener('change', (event) => {
          modifiedTime = Date.now();
          newSettings.dhw.enable = event.currentTarget.checked;
        });
        setTimeout(async function onLoadPage() {
          if (modifiedTime) {
            if ((Date.now() - modifiedTime) < 5000) {
              setTimeout(onLoadPage, 1000);
              return;
            }
            modifiedTime = null;
          }
          // settings
          try {
            let modified = prevSettings && (
              (prevSettings.heating.enable != newSettings.heating.enable)
              || (prevSettings.heating.turbo != newSettings.heating.turbo)
              || (prevSettings.heating.target != newSettings.heating.target)
              || (prevSettings.opentherm.dhwPresent && prevSettings.dhw.enable != newSettings.dhw.enable)
              || (prevSettings.opentherm.dhwPresent && prevSettings.dhw.target != newSettings.dhw.target)
            );
            if (modified) {
              console.log(newSettings);
            }
            let parameters = { cache: 'no-cache' };
            if (modified) {
              parameters.method = "POST";
              parameters.body = JSON.stringify(newSettings);
            }
            const response = await fetch('/api/settings', parameters);
            if (!response.ok) {
              throw new Error('Response not valid');
            }
            const result = await response.json();
            noRegulators = !result.opentherm.nativeHeatingControl && !result.equitherm.enable && !result.pid.enable;
            prevSettings = result;
            newSettings.heating.enable = result.heating.enable;
            newSettings.heating.turbo = result.heating.turbo;
            newSettings.heating.target = result.heating.target;
            newSettings.dhw.enable = result.dhw.enable;
            newSettings.dhw.target = result.dhw.target;
            if (result.opentherm.dhwPresent) {
              show('#thermostat-dhw');
            } else {
              hide('#thermostat-dhw');
            }
            setCheckboxValue('#thermostat-heating-enabled', result.heating.enable);
            setCheckboxValue('#thermostat-heating-turbo', result.heating.turbo);
            setValue('#thermostat-heating-target', result.heating.target);
            setCheckboxValue('#thermostat-dhw-enabled', result.dhw.enable);
            setValue('#thermostat-dhw-target', result.dhw.target);
            setValue('.temp-unit', temperatureUnit(result.system.unitSystem));
            setValue('.pressure-unit', pressureUnit(result.system.unitSystem));
            setValue('.volume-unit', volumeUnit(result.system.unitSystem));
          } catch (error) {
            console.log(error);
          }
          // vars
          try {
            const response = await fetch('/api/vars', { cache: 'no-cache' });
            if (!response.ok) {
              throw new Error('Response not valid');
            }
            const result = await response.json();
            setValue('#thermostat-heating-current', noRegulators ? result.temperatures.heating : result.temperatures.indoor);
            setValue('#thermostat-dhw-current', result.temperatures.dhw);
            setState('#ot-connected', result.states.otStatus);
            setState('#mqtt-connected', result.states.mqtt);
            setState('#ot-emergency', result.states.emergency);
            setState('#ot-heating', result.states.heating);
            setState('#ot-dhw', result.states.dhw);
            setState('#ot-flame', result.states.flame);
            setState('#ot-fault', result.states.fault);
            setState('#ot-diagnostic', result.states.diagnostic);
            setState('#ot-external-pump', result.states.externalPump);
            setState('#outdoor-sensor-connected', result.sensors.outdoor.connected);
            setState('#indoor-sensor-connected', result.sensors.indoor.connected);
            setState('#cc-input', result.cascadeControl.input);
            setState('#cc-output', result.cascadeControl.output);
            setValue('#outdoor-sensor-rssi', result.sensors.outdoor.rssi);
            setValue('#outdoor-sensor-humidity', result.sensors.outdoor.humidity);
            setValue('#outdoor-sensor-battery', result.sensors.outdoor.battery);
            setValue('#indoor-sensor-rssi', result.sensors.indoor.rssi);
            setValue('#indoor-sensor-humidity', result.sensors.indoor.humidity);
            setValue('#indoor-sensor-battery', result.sensors.indoor.battery);
            setValue('#ot-modulation', result.sensors.modulation);
            setValue('#ot-pressure', result.sensors.pressure);
            setValue('#ot-dhw-flow-rate', result.sensors.dhwFlowRate);
            setValue('#ot-power', result.sensors.power);
            setValue(
              '#ot-fault-code',
              result.sensors.faultCode
                ? (result.sensors.faultCode + " (0x" + dec2hex(result.sensors.faultCode) + ")")
                : "-"
            );
            setValue(
              '#ot-diag-code',
              result.sensors.diagnosticCode
                ? (result.sensors.diagnosticCode + " (0x" + dec2hex(result.sensors.diagnosticCode) + ")")
                : "-"
            );
            setValue('#indoor-temp', result.temperatures.indoor);
            setValue('#outdoor-temp', result.temperatures.outdoor);
            setValue('#heating-temp', result.temperatures.heating);
            setValue('#heating-return-temp', result.temperatures.heatingReturn);
            setValue('#dhw-temp', result.temperatures.dhw);
            setValue('#exhaust-temp', result.temperatures.exhaust);
            setValue('#heating-min-temp', result.parameters.heatingMinTemp);
            setValue('#heating-max-temp', result.parameters.heatingMaxTemp);
            setValue('#heating-setpoint-temp', result.parameters.heatingSetpoint);
            setValue('#dhw-min-temp', result.parameters.dhwMinTemp);
            setValue('#dhw-max-temp', result.parameters.dhwMaxTemp);
            setValue('#slave-member-id', result.parameters.slaveMemberId);
            setValue('#slave-vendor', memberIdToVendor(result.parameters.slaveMemberId));
            setValue('#slave-flags', result.parameters.slaveFlags);
            setValue('#slave-type', result.parameters.slaveType);
            setValue('#slave-version', result.parameters.slaveVersion);
            setValue('#slave-ot-version', result.parameters.slaveOtVersion);
            setBusy('#dashboard-busy', '#dashboard-container', false);
          } catch (error) {
            console.log(error);
          }
          setTimeout(onLoadPage, 10000);
        }, 1000);
      });
    </script>
  </body>
 </html>
@@ -1,225 +0,0 @@
 <!doctype html>
 <html lang="en">
  <head>
    <meta charset="utf-8" />
    <meta name="viewport" content="width=device-width, initial-scale=1" />
    <title data-i18n>index.title</title>
    <link rel="stylesheet" href="/static/app.css" />
  </head>
  <body>
    <header class="container">
      <nav>
        <ul>
          <li><a href="/">
              <div class="logo" data-i18n>logo</div>
            </a></li>
        </ul>
        <ul>
          <!--<li><a href="https://github.com/Laxilef/OTGateway/wiki" role="button" class="secondary" target="_blank">Help</a></li>-->
          <li>
            <select id="lang" aria-label="Lang">
              <option value="en" selected>EN</option>
              <option value="ru">RU</option>
            </select>
          </li>
        </ul>
      </nav>
    </header>
    <main class="container">
      <article>
        <div>
          <hgroup>
            <h2 data-i18n>index.section.network</h2>
            <p></p>
          </hgroup>
          <div id="main-busy" aria-busy="true"></div>
          <table id="main-table" class="hidden">
            <tbody>
              <tr>
                <th scope="row" data-i18n>network.params.hostname</th>
                <td><b id="network-hostname"></b></td>
              </tr>
              <tr>
                <th scope="row" data-i18n>network.params.mac</th>
                <td><b id="network-mac"></b></td>
              </tr>
              <tr>
                <th scope="row" data-i18n>network.wifi.connected</th>
                <td><input type="radio" id="network-connected" aria-invalid="false" checked disabled /></td>
              </tr>
              <tr>
                <th scope="row" data-i18n>network.wifi.ssid</th>
                <td><b id="network-ssid"></b></td>
              </tr>
              <tr>
                <th scope="row" data-i18n>network.wifi.signal</th>
                <td><b id="network-signal"></b> %</td>
              </tr>
              <tr>
                <th scope="row" data-i18n>network.params.ip</th>
                <td><b id="network-ip"></b></td>
              </tr>
              <tr>
                <th scope="row" data-i18n>network.params.subnet</th>
                <td><b id="network-subnet"></b></td>
              </tr>
              <tr>
                <th scope="row" data-i18n>network.params.gateway</th>
                <td><b id="network-gateway"></b></td>
              </tr>
              <tr>
                <th scope="row" data-i18n>network.params.dns</th>
                <td><b id="network-dns"></b></td>
              </tr>
            </tbody>
          </table>
          <div class="grid">
            <a href="/network.html" role="button" data-i18n>network.name</a>
          </div>
        </div>
      </article>
      <article>
        <div>
          <hgroup>
            <h2 data-i18n>index.section.system</h2>
            <p></p>
          </hgroup>
          <div id="system-busy" aria-busy="true"></div>
          <table id="system-table" class="hidden">
            <tbody>
              <tr>
                <th scope="row" data-i18n>index.system.build.version</th>
                <td><b id="build-version"></b></td>
              </tr>
              <tr>
                <th scope="row" data-i18n>index.system.build.title</th>
                <td>
                  Env: <b id="build-env"></b><br />
                  <span data-i18n>index.system.build.date</span>: <b id="build-date"></b><br />
                  <span data-i18n>index.system.build.core</span>: <b id="build-core"></b><br />
                  <span data-i18n>index.system.build.sdk</span>: <b id="build-sdk"></b>
                </td>
              </tr>
              <tr>
                <th scope="row" data-i18n>index.system.uptime</th>
                <td>
                  <b id="uptime-days"></b> <span data-i18n>time.days</span>, 
                  <b id="uptime-hours"></b> <span data-i18n>time.hours</span>, 
                  <b id="uptime-min"></b> <span data-i18n>time.min</span>, 
                  <b id="uptime-sec"></b> <span data-i18n>time.sec</span>
                </td>
              </tr>
              <tr>
                <th scope="row" data-i18n>index.system.memory.title</th>
                <td>
                  <b id="heap-free"></b> of <b id="heap-total"></b> bytes (<span data-i18n>index.system.memory.min</span>: <b id="heap-min-free"></b> bytes)<br />
                  <span data-i18n>index.system.memory.maxFreeBlock</span>: <b id="heap-max-free-block"></b> bytes (<span data-i18n>index.system.memory.min</span>: <b id="heap-min-max-free-block"></b> bytes)
                </td>
              </tr>
              <tr>
                <th scope="row" data-i18n>index.system.board</th>
                <td>
                  <span data-i18n>index.system.chip.model</span>: <b id="chip-model"></b> (rev. <span id="chip-rev"></span>)<br />
                  <span data-i18n>index.system.chip.cores</span>: <b id="chip-cores"></b>, <span data-i18n>index.system.chip.freq</span>: <b id="chip-freq"></b> mHz<br />
                  <span data-i18n>index.system.flash.size</span>: <b id="flash-size"></b> MB (<span data-i18n>index.system.flash.realSize</span>: <b id="flash-real-size"></b> MB)
                </td>
              </tr>
              <tr>
                <th scope="row" data-i18n>index.system.lastResetReason</th>
                <td>
                  <b id="reset-reason"></b><br />
                  <a href="/api/debug" target="_blank"><small>Save debug data</small></a>
                </td>
              </tr>
            </tbody>
          </table>
          <div class="grid">
            <a href="/dashboard.html" role="button" data-i18n>dashboard.name</a>
            <a href="/settings.html" role="button" data-i18n>settings.name</a>
            <a href="/upgrade.html" role="button" data-i18n>upgrade.name</a>
            <a href="/restart.html" role="button" class="secondary restart" data-i18n>button.restart</a>
          </div>
        </div>
      </article>
    </main>
    <footer class="container">
      <small>
        <b>Made by Laxilef</b>
        • <a href="https://github.com/Laxilef/OTGateway/blob/master/LICENSE" target="_blank" class="secondary" data-i18n>nav.license</a>
        • <a href="https://github.com/Laxilef/OTGateway/blob/master/" target="_blank" class="secondary" data-i18n>nav.source</a>
        • <a href="https://github.com/Laxilef/OTGateway/wiki" target="_blank" class="secondary" data-i18n>nav.help</a>
        • <a href="https://github.com/Laxilef/OTGateway/issues" target="_blank" class="secondary" data-i18n>nav.issues</a>
        • <a href="https://github.com/Laxilef/OTGateway/releases" target="_blank" class="secondary" data-i18n>nav.releases</a>
      </small>
    </footer>
    <script src="/static/app.js"></script>
    <script>
      document.addEventListener('DOMContentLoaded', async () => {
        const lang = new Lang(document.getElementById('lang'));
        lang.build();
        setTimeout(async function onLoadPage() {
          try {
            const response = await fetch('/api/info', { cache: 'no-cache' });
            if (!response.ok) {
              throw new Error('Response not valid');
            }
            const result = await response.json();
            setValue('#reset-reason', result.system.resetReason);
            setValue('#uptime', result.system.uptime);
            setValue('#uptime-days', Math.floor(result.system.uptime / 86400));
            setValue('#uptime-hours', Math.floor(result.system.uptime % 86400 / 3600));
            setValue('#uptime-min', Math.floor(result.system.uptime % 3600 / 60));
            setValue('#uptime-sec', Math.floor(result.system.uptime % 60));
            setValue('#network-hostname', result.network.hostname);
            setValue('#network-mac', result.network.mac);
            setState('#network-connected', result.network.connected);
            setValue('#network-ssid', result.network.ssid);
            setValue('#network-signal', result.network.signalQuality);
            setValue('#network-ip', result.network.ip);
            setValue('#network-subnet', result.network.subnet);
            setValue('#network-gateway', result.network.gateway);
            setValue('#network-dns', result.network.dns);
            setBusy('#main-busy', '#main-table', false);
            setValue('#build-version', result.build.version);
            setValue('#build-date', result.build.date);
            setValue('#build-env', result.build.env);
            setValue('#build-core', result.build.core);
            setValue('#build-sdk', result.build.sdk);
            setValue('#heap-total', result.heap.total);
            setValue('#heap-free', result.heap.free);
            setValue('#heap-min-free', result.heap.minFree);
            setValue('#heap-max-free-block', result.heap.maxFreeBlock);
            setValue('#heap-min-max-free-block', result.heap.minMaxFreeBlock);
            setValue('#chip-model', result.chip.model);
            setValue('#chip-rev', result.chip.rev);
            setValue('#chip-cores', result.chip.cores);
            setValue('#chip-freq', result.chip.freq);
            setValue('#flash-size', result.flash.size / 1024 / 1024);
            setValue('#flash-real-size', result.flash.realSize / 1024 / 1024);
            setBusy('#system-busy', '#system-table', false);
          } catch (error) {
            console.log(error);
          }
          setTimeout(onLoadPage, 10000);
        }, 1000);
      });
    </script>
  </body>
 </html>
@@ -1,220 +0,0 @@
 <!doctype html>
 <html lang="en">
  <head>
    <meta charset="utf-8" />
    <meta name="viewport" content="width=device-width, initial-scale=1" />
    <title data-i18n>network.title</title>
    <link rel="stylesheet" href="/static/app.css" />
  </head>
  <body>
    <header class="container">
      <nav>
        <ul>
          <li><a href="/">
              <div class="logo" data-i18n>logo</div>
            </a></li>
        </ul>
        <ul>
          <!--<li><a href="https://github.com/Laxilef/OTGateway/wiki" role="button" class="secondary" target="_blank">Help</a></li>-->
          <li>
            <select id="lang" aria-label="Lang">
              <option value="en" selected>EN</option>
              <option value="ru">RU</option>
            </select>
          </li>
        </ul>
      </nav>
    </header>
    <main class="container">
      <article>
        <div>
          <hgroup>
            <h2 data-i18n>network.name</h2>
            <p></p>
          </hgroup>
          <div id="network-settings-busy" aria-busy="true"></div>
          <form action="/api/network/settings" id="network-settings" class="hidden">
            <label for="network-hostname">
              <span data-i18n>network.params.hostname</span>
              <input type="text" id="network-hostname" name="hostname" maxlength="24" pattern="[A-Za-z0-9]+[A-Za-z0-9\-]+[A-Za-z0-9]+" required>
            </label>
            <label for="network-use-dhcp">
              <input type="checkbox" id="network-use-dhcp" name="useDhcp" value="true">
              <span data-i18n>network.params.dhcp</span>
            </label>
            <br />
            <hr />
            <h4 data-i18n>network.section.static</h4>
            <label for="network-static-ip">
              <span data-i18n>network.params.ip</span>
              <input type="text" id="network-static-ip" name="staticConfig[ip]" value="true" maxlength="16" pattern="\d{1,3}\.\d{1,3}\.\d{1,3}\.\d{1,3}" required>
            </label>
            <label for="network-static-gateway">
              <span data-i18n>network.params.gateway</span>
              <input type="text" id="network-static-gateway" name="staticConfig[gateway]" maxlength="16" pattern="\d{1,3}\.\d{1,3}\.\d{1,3}\.\d{1,3}" required>
            </label>
            <label for="network-static-subnet">
              <span data-i18n>network.params.subnet</span>
              <input type="text" id="network-static-subnet" name="staticConfig[subnet]" maxlength="16" pattern="\d{1,3}\.\d{1,3}\.\d{1,3}\.\d{1,3}" required>
            </label>
            <label for="network-static-dns">
              <span data-i18n>network.params.dns</span>
              <input type="text" id="network-static-dns" name="staticConfig[dns]" maxlength="16" pattern="\d{1,3}\.\d{1,3}\.\d{1,3}\.\d{1,3}" required>
            </label>
            <button type="submit" data-i18n>button.save</button>
          </form>
        </div>
      </article>
      <article>
        <div>
          <hgroup>
            <h3 data-i18n>network.section.availableNetworks</h3>
            <p></p>
          </hgroup>
          <form action="/api/network/scan" id="network-scan">
            <div style="max-height: 25rem;" class="overflow-auto">
              <table id="networks" role="grid">
                <thead>
                  <tr>
                    <th scope="col" data-i18n>network.scan.pos</th>
                    <th scope="col" data-i18n>network.wifi.ssid</th>
                    <th scope="col" data-i18n>network.scan.info</th>
                  </tr>
                </thead>
                <tbody></tbody>
              </table>
            </div>
            <button type="submit" data-i18n>button.refresh</button>
          </form>
          <hr />
          <div>
            <hgroup>
              <h2 data-i18n>network.section.staSettings</h2>
              <p></p>
            </hgroup>
            <div id="sta-settings-busy" aria-busy="true"></div>
            <form action="/api/network/settings" id="sta-settings" class="hidden">
              <label for="sta-ssid">
                <span data-i18n>network.wifi.ssid</span>
                <input type="text" id="sta-ssid" name="sta[ssid]" maxlength="32" required>
              </label>
              <label for="sta-password">
                <span data-i18n>network.wifi.password</span>
                <input type="password" id="sta-password" name="sta[password]" maxlength="64" required>
              </label>
              <label for="sta-channel">
                <span data-i18n>network.wifi.channel</span>
                <input type="number" inputmode="numeric" id="sta-channel" name="sta[channel]" min="0" max="12" step="1" required>
                <small data-i18n>network.sta.channel.note</small>
              </label>
              <button type="submit" data-i18n>button.save</button>
            </form>
          </div>
        </div>
      </article>
      <article>
        <div>
          <hgroup>
            <h2 data-i18n>network.section.apSettings</h2>
            <p></p>
          </hgroup>
          <div id="ap-settings-busy" aria-busy="true"></div>
          <form action="/api/network/settings" id="ap-settings" class="hidden">
            <label for="ap-ssid">
              <span data-i18n>network.wifi.ssid</span>
              <input type="text" id="ap-ssid" name="ap[ssid]" maxlength="32" required>
            </label>
            <label for="ap-password">
              <span data-i18n>network.wifi.password</span>
              <input type="text" id="ap-password" name="ap[password]" maxlength="64" required>
            </label>
            <label for="ap-channel">
              <span data-i18n>network.wifi.channel</span>
              <input type="number" inputmode="numeric" id="ap-channel" name="ap[channel]" min="1" max="12" step="1" required>
            </label>
            <button type="submit" data-i18n>button.save</button>
          </form>
        </div>
      </article>
    </main>
    <footer class="container">
      <small>
        <b>Made by Laxilef</b>
        • <a href="https://github.com/Laxilef/OTGateway/blob/master/LICENSE" target="_blank" class="secondary" data-i18n>nav.license</a>
        • <a href="https://github.com/Laxilef/OTGateway/blob/master/" target="_blank" class="secondary" data-i18n>nav.source</a>
        • <a href="https://github.com/Laxilef/OTGateway/wiki" target="_blank" class="secondary" data-i18n>nav.help</a>
        • <a href="https://github.com/Laxilef/OTGateway/issues" target="_blank" class="secondary" data-i18n>nav.issues</a>
        • <a href="https://github.com/Laxilef/OTGateway/releases" target="_blank" class="secondary" data-i18n>nav.releases</a>
      </small>
    </footer>
    <script src="/static/app.js"></script>
    <script>
      document.addEventListener('DOMContentLoaded', async () => {
        const lang = new Lang(document.getElementById('lang'));
        lang.build();
        const fillData = (data) => {
          setInputValue('#network-hostname', data.hostname);
          setCheckboxValue('#network-use-dhcp', data.useDhcp);
          setInputValue('#network-static-ip', data.staticConfig.ip);
          setInputValue('#network-static-gateway', data.staticConfig.gateway);
          setInputValue('#network-static-subnet', data.staticConfig.subnet);
          setInputValue('#network-static-dns', data.staticConfig.dns);
          setBusy('#network-settings-busy', '#network-settings', false);
          setInputValue('#sta-ssid', data.sta.ssid);
          setInputValue('#sta-password', data.sta.password);
          setInputValue('#sta-channel', data.sta.channel);
          setBusy('#sta-settings-busy', '#sta-settings', false);
          setInputValue('#ap-ssid', data.ap.ssid);
          setInputValue('#ap-password', data.ap.password);
          setInputValue('#ap-channel', data.ap.channel);
          setBusy('#ap-settings-busy', '#ap-settings', false);
        };
        try {
          const response = await fetch('/api/network/settings', { cache: 'no-cache' });
          if (!response.ok) {
            throw new Error('Response not valid');
          }
          const result = await response.json();
          fillData(result);
          setupForm('#network-settings', fillData, ['hostname']);
          setupNetworkScanForm('#network-scan', '#networks');
          setupForm('#sta-settings', fillData, ['sta.ssid', 'sta.password']);
          setupForm('#ap-settings', fillData, ['ap.ssid', 'ap.password']);
        } catch (error) {
          console.log(error);
        }
      });
    </script>
  </body>
 </html>
@@ -1,111 +0,0 @@
 <!doctype html>
 <html lang="en">
  <head>
    <meta charset="utf-8" />
    <meta name="viewport" content="width=device-width, initial-scale=1" />
    <title data-i18n>upgrade.title</title>
    <link rel="stylesheet" href="/static/app.css">
  </head>
  <body>
    <header class="container">
      <nav>
        <ul>
          <li><a href="/">
              <div class="logo" data-i18n>logo</div>
            </a></li>
        </ul>
        <ul>
          <!--<li><a href="https://github.com/Laxilef/OTGateway/wiki" role="button" class="secondary" target="_blank">Help</a></li>-->
          <li>
            <select id="lang" aria-label="Lang">
              <option value="en" selected>EN</option>
              <option value="ru">RU</option>
            </select>
          </li>
        </ul>
      </nav>
    </header>
    <main class="container">
      <article>
        <div>
          <hgroup>
            <h2 data-i18n>upgrade.section.backupAndRestore</h2>
            <p data-i18n>upgrade.section.backupAndRestore.desc</p>
          </hgroup>
          <form action="/api/backup/restore" id="restore">
            <label for="restore-file">
              <span data-i18n>upgrade.settingsFile</span>
              <input type="file" name="settings" id="restore-file" accept=".json">
            </label>
            <div class="grid">
              <button type="submit" data-i18n>button.restore</button>
              <button type="button" class="secondary" onclick="window.location='/api/backup/save';" data-i18n>button.backup</button>
            </div>
          </form>
        </div>
      </article>
      <article>
        <div>
          <hgroup>
            <h2 data-i18n>upgrade.section.upgrade</h2>
            <p data-i18n>upgrade.section.upgrade.desc</p>
          </hgroup>
          <form action="/api/upgrade" id="upgrade">
            <fieldset class="primary">
              <label for="firmware-file">
                <span data-i18n>upgrade.fw</span>:
                <div class="grid">
                  <input type="file" name="firmware" id="firmware-file" accept=".bin">
                  <button type="button" class="upgrade-firmware-result hidden" disabled></button>
                </div>
              </label>
              <label for="filesystem-file">
                <span data-i18n>upgrade.fs</span>:
                <div class="grid">
                  <input type="file" name="filesystem" id="filesystem-file" accept=".bin">
                  <button type="button" class="upgrade-filesystem-result hidden" disabled></button>
                </div>
              </label>
            </fieldset>
            <ul>
              <li><mark data-i18n>upgrade.note.disclaimer1</mark></li>
              <li><mark data-i18n>upgrade.note.disclaimer2</mark></li>
            </ul>
            <button type="submit" data-i18n>button.upgrade</button>
          </form>
        </div>
      </article>
    </main>
    <footer class="container">
      <small>
        <b>Made by Laxilef</b>
        • <a href="https://github.com/Laxilef/OTGateway/blob/master/LICENSE" target="_blank" class="secondary" data-i18n>nav.license</a>
        • <a href="https://github.com/Laxilef/OTGateway/blob/master/" target="_blank" class="secondary" data-i18n>nav.source</a>
        • <a href="https://github.com/Laxilef/OTGateway/wiki" target="_blank" class="secondary" data-i18n>nav.help</a>
        • <a href="https://github.com/Laxilef/OTGateway/issues" target="_blank" class="secondary" data-i18n>nav.issues</a>
        • <a href="https://github.com/Laxilef/OTGateway/releases" target="_blank" class="secondary" data-i18n>nav.releases</a>
      </small>
    </footer>
    <script src="/static/app.js"></script>
    <script>
      document.addEventListener('DOMContentLoaded', async () => {
        const lang = new Lang(document.getElementById('lang'));
        lang.build();
        setupRestoreBackupForm('#restore');
        setupUpgradeForm('#upgrade');
      });
    </script>
  </body>
 </html>
@@ -1 +0,0 @@
 (function(){var e,t,n,r=function(e,t){return function(){return e.apply(t,arguments)}};e=function(){function e(){this.translate=r(this.translate,this);this.data={values:{},contexts:[]};this.globalContext={}}e.prototype.translate=function(e,t,n,r,i){var s,o,u,a;if(i==null){i=this.globalContext}u=function(e){var t;t=typeof e;return t==="function"||t==="object"&&!!e};if(u(t)){s=null;a=null;o=t;i=n||this.globalContext}else{if(typeof t==="number"){s=null;a=t;o=n;i=r||this.globalContext}else{s=t;if(typeof n==="number"){a=n;o=r;i=i}else{a=null;o=n;i=r||this.globalContext}}}if(u(e)){if(u(e["i18n"])){e=e["i18n"]}return this.translateHash(e,i)}else{return this.translateText(e,a,o,i,s)}};e.prototype.add=function(e){var t,n,r,i,s,o,u,a;if(e.values!=null){o=e.values;for(n in o){r=o[n];this.data.values[n]=r}}if(e.contexts!=null){u=e.contexts;a=[];for(i=0,s=u.length;i<s;i++){t=u[i];a.push(this.data.contexts.push(t))}return a}};e.prototype.setContext=function(e,t){return this.globalContext[e]=t};e.prototype.clearContext=function(e){return this.lobalContext[e]=null};e.prototype.reset=function(){this.data={values:{},contexts:[]};return this.globalContext={}};e.prototype.resetData=function(){return this.data={values:{},contexts:[]}};e.prototype.resetContext=function(){return this.globalContext={}};e.prototype.translateHash=function(e,t){var n,r;for(n in e){r=e[n];if(typeof r==="string"){e[n]=this.translateText(r,null,null,t)}}return e};e.prototype.translateText=function(e,t,n,r,i){var s,o;if(r==null){r=this.globalContext}if(this.data==null){return this.useOriginalText(i||e,t,n)}s=this.getContextData(this.data,r);if(s!=null){o=this.findTranslation(e,t,n,s.values,i)}if(o==null){o=this.findTranslation(e,t,n,this.data.values,i)}if(o==null){return this.useOriginalText(i||e,t,n)}return o};e.prototype.findTranslation=function(e,t,n,r){var i,s,o,u,a;o=r[e];if(o==null){return null}if(t==null){if(typeof o==="string"){return this.applyFormatting(o,t,n)}}else{if(o instanceof Array||o.length){for(u=0,a=o.length;u<a;u++){s=o[u];if((t>=s[0]||s[0]===null)&&(t<=s[1]||s[1]===null)){i=this.applyFormatting(s[2].replace("-%n",String(-t)),t,n);return this.applyFormatting(i.replace("%n",String(t)),t,n)}}}}return null};e.prototype.getContextData=function(e,t){var n,r,i,s,o,u,a,f;if(e.contexts==null){return null}a=e.contexts;for(o=0,u=a.length;o<u;o++){n=a[o];r=true;f=n.matches;for(i in f){s=f[i];r=r&&s===t[i]}if(r){return n}}return null};e.prototype.useOriginalText=function(e,t,n){if(t==null){return this.applyFormatting(e,t,n)}return this.applyFormatting(e.replace("%n",String(t)),t,n)};e.prototype.applyFormatting=function(e,t,n){var r,i;for(r in n){i=new RegExp("%{"+r+"}","g");e=e.replace(i,n[r])}return e};return e}();n=new e;t=n.translate;t.translator=n;t.create=function(n){var r;r=new e;if(n!=null){r.add(n)}r.translate.create=t.create;return r.translate};(typeof module!=="undefined"&&module!==null?module.exports=t:void 0)||(this.i18n=t)}).call(this)
@@ -1,128 +0,0 @@
 class Lang {
  constructor(switcher, defaultLocale = null) {
    if (!(switcher instanceof Object)) {
      throw new SyntaxError("switcher must be an element object");
    }
    this.switcher = switcher;
    this.defaultLocale = defaultLocale;
    this.supportedLocales = [];
    this.currentLocale = null;
  }
  async build() {
    this.bindSwitcher();
    const userLocale = localStorage.getItem('locale');
    if (this.localeIsSupported(userLocale)) {
      await this.setLocale(userLocale);
    } else {
      const initialLocale = this.getSuitableLocale(this.browserLocales(true));
      await this.setLocale(initialLocale);
    }
    this.translatePage();
  }
  bindSwitcher() {
    this.supportedLocales = [];
    for (const option of this.switcher.options) {
      this.supportedLocales.push(option.value);
    }
    if (!this.localeIsSupported(this.defaultLocale)) {
      const selected = this.switcher.selectedIndex ?? 0;
      this.defaultLocale = this.switcher.options[selected].value;
    }
    this.switcher.addEventListener('change', async (element) => {
      await this.setLocale(element.target.value);
      this.translatePage();
    });
  }
  async setLocale(newLocale) {
    if (this.currentLocale == newLocale) {
      return;
    }
    i18n.translator.reset();
    i18n.translator.add(await this.fetchTranslations(newLocale));
    this.currentLocale = newLocale;
    localStorage.setItem('locale', this.currentLocale);
    if (document.documentElement) {
      document.documentElement.setAttribute("lang", this.currentLocale);
    }
    if (this.switcher.value != this.currentLocale) {
      this.switcher.value = this.currentLocale;
    }
  }
  async fetchTranslations(locale) {
    const response = await fetch(`/static/locales/${locale}.json`);
    const data = await response.json();
    if (data.values instanceof Object) {
      data.values = this.flattenKeys({keys: data.values, prefix: ''});
    }
    return data;
  }
  translatePage() {
    document
      .querySelectorAll("[data-i18n]")
      .forEach((element) => this.translateElement(element));
  }
  translateElement(element) {
    let key = element.getAttribute("data-i18n");
    if (!key && element.innerHTML) {
      key = element.innerHTML;
      element.setAttribute("data-i18n", key);
    }
    if (!key) {
      return;
    }
    const arg = element.getAttribute("data-i18n-arg") || null;
    const options = JSON.parse(element.getAttribute("data-i18n-options")) || null;
    element.innerHTML = i18n(key, arg, options);
  }
  localeIsSupported(locale) {
    return locale !== null && this.supportedLocales.indexOf(locale) > -1;
  }
  getSuitableLocale(locales) {
    return locales.find(this.localeIsSupported, this) || this.defaultLocale;
  }
  browserLocales(codeOnly = false) {
    return navigator.languages.map((locale) =>
      codeOnly ? locale.split("-")[0] : locale,
    );
  }
  flattenKeys({ keys, prefix }) {
    let result = {};
    for (let key in keys) {
      const type = typeof keys[key];
      if (type === 'string') {
        result[`${prefix}${key}`] = keys[key];
      }
      else if (type === 'object') {
        result = { ...result, ...this.flattenKeys({ keys: keys[key], prefix: `${prefix}${key}.` }) }
      }
    }
    return result;
  }
 }
@@ -1,688 +0,0 @@
 function setupForm(formSelector, onResultCallback = null, noCastItems = []) {
  const form = document.querySelector(formSelector);
  if (!form) {
    return;
  }
  form.querySelectorAll('input').forEach(item => {
    item.addEventListener('change', (e) => {
      e.target.setAttribute('aria-invalid', !e.target.checkValidity());
    })
  });
  const url = form.action;
  let button = form.querySelector('button[type="submit"]');
  let defaultText;
  form.addEventListener('submit', async (event) => {
    event.preventDefault();
    if (button) {
      defaultText = button.textContent;
      button.textContent = i18n("button.wait");
      button.setAttribute('disabled', true);
      button.setAttribute('aria-busy', true);
    }
    const onSuccess = (result) => {
      if (button) {
        button.textContent = i18n('button.saved');
        button.classList.add('success');
        button.removeAttribute('aria-busy');
        setTimeout(() => {
          button.removeAttribute('disabled');
          button.classList.remove('success', 'failed');
          button.textContent = defaultText;
        }, 5000);
      }
    };
    const onFailed = () => {
      if (button) {
        button.textContent = i18n('button.error');
        button.classList.add('failed');
        button.removeAttribute('aria-busy');
        setTimeout(() => {
          button.removeAttribute('disabled');
          button.classList.remove('success', 'failed');
          button.textContent = defaultText;
        }, 5000);
      }
    };
    try {
      let fd = new FormData(form);
      let checkboxes = form.querySelectorAll('input[type="checkbox"]');
      for (let checkbox of checkboxes) {
        fd.append(checkbox.getAttribute('name'), checkbox.checked);
      }
      let response = await fetch(url, {
        method: 'POST',
        cache: 'no-cache',
        headers: {
          'Content-Type': 'application/json'
        },
        body: form2json(fd, noCastItems)
      });
      if (!response.ok) {
        throw new Error('Response not valid');
      }
      const result = response.status != 204 ? (await response.json()) : null;
      onSuccess(result);
      if (onResultCallback instanceof Function) {
        onResultCallback(result);
      }
    } catch (err) {
      console.log(err);
      onFailed();
    }
  });
 }
 function setupNetworkScanForm(formSelector, tableSelector) {
  const form = document.querySelector(formSelector);
  if (!form) {
    console.error("form not found");
    return;
  }
  const url = form.action;
  let button = form.querySelector('button[type="submit"]');
  let defaultText;
  const onSubmitFn = async (event) => {
    if (event) {
      event.preventDefault();
    }
    if (button) {
      defaultText = button.innerHTML;
      button.innerHTML = i18n('button.wait');
      button.setAttribute('disabled', true);
      button.setAttribute('aria-busy', true);
    }
    let table = document.querySelector(tableSelector);
    if (!table) {
      console.error("table not found");
      return;
    }
    const onSuccess = async (response) => {
      let result = await response.json();
      console.log('networks: ', result);
      let tbody = table.querySelector('tbody');
      if (!tbody) {
        tbody = table.createTBody();
      }
      while (tbody.rows.length > 0) {
        tbody.rows[0].remove();
      }
      for (let i = 0; i < result.length; i++) {
        let row = tbody.insertRow(-1);
        row.classList.add("network");
        row.setAttribute('data-ssid', result[i].hidden ? '' : result[i].ssid);
        row.onclick = function () {
          const input = document.querySelector('input#sta-ssid');
          const ssid = this.getAttribute('data-ssid');
          if (!input || !ssid) {
            return;
          }
          input.value = ssid;
          input.focus();
        };
        row.insertCell().textContent = "#" + (i + 1);
        row.insertCell().innerHTML = result[i].hidden ? ("<i>" + result[i].bssid + "</i>") : result[i].ssid;
        // info cell
        let infoCell = row.insertCell();
        // signal quality
        let signalQualityIcon = document.createElement("i");
        if (result[i].signalQuality > 80) {
          signalQualityIcon.classList.add('icons-wifi-strength-4');
        } else if (result[i].signalQuality > 60) {
          signalQualityIcon.classList.add('icons-wifi-strength-3');
        } else if (result[i].signalQuality > 40) {
          signalQualityIcon.classList.add('icons-wifi-strength-2');
        } else if (result[i].signalQuality > 20) {
          signalQualityIcon.classList.add('icons-wifi-strength-1');
        } else {
          signalQualityIcon.classList.add('icons-wifi-strength-0');
        }
        let signalQualityContainer = document.createElement("span");
        signalQualityContainer.setAttribute('data-tooltip', result[i].signalQuality + "%");
        signalQualityContainer.appendChild(signalQualityIcon);
        infoCell.appendChild(signalQualityContainer);
        // auth
        const authList = {
          0: "Open",
          1: "WEP",
          2: "WPA",
          3: "WPA2",
          4: "WPA/WPA2",
          5: "WPA/WPA2 Enterprise",
          6: "WPA3",
          7: "WPA2/WPA3",
          8: "WAPI",
          9: "OWE",
          10: "WPA3 Enterprise"
        };
        let authIcon = document.createElement("i");
        if (result[i].auth == 0) {
          authIcon.classList.add('icons-unlocked');
        } else {
          authIcon.classList.add('icons-locked');
        }
        let authContainer = document.createElement("span");
        authContainer.setAttribute('data-tooltip', (result[i].auth in authList) ? authList[result[i].auth] : "unknown");
        authContainer.appendChild(authIcon);
        infoCell.appendChild(authContainer);
      }
      if (button) {
        button.innerHTML = defaultText;
        button.removeAttribute('disabled');
        button.removeAttribute('aria-busy');
      }
    };
    const onFailed = async (response) => {
      table.classList.remove('hidden');
      if (button) {
        button.innerHTML = defaultText;
        button.removeAttribute('disabled');
        button.removeAttribute('aria-busy');
      }
    };
    let attempts = 6;
    let attemptFn = async () => {
      attempts--;
      try {
        let response = await fetch(url, { cache: 'no-cache' });
        if (response.status == 200) {
          await onSuccess(response);
        } else if (attempts <= 0) {
          await onFailed(response);
        } else {
          setTimeout(attemptFn, 5000);
        }
      } catch (err) {
        if (attempts <= 0) {
          onFailed(err);
        } else {
          setTimeout(attemptFn, 10000);
        }
      }
    };
    attemptFn();
  };
  form.addEventListener('submit', onSubmitFn);
  onSubmitFn();
 }
 function setupRestoreBackupForm(formSelector) {
  const form = document.querySelector(formSelector);
  if (!form) {
    return;
  }
  const url = form.action;
  let button = form.querySelector('button[type="submit"]');
  let defaultText;
  form.addEventListener('submit', async (event) => {
    event.preventDefault();
    if (button) {
      defaultText = button.textContent;
      button.textContent = i18n('button.wait');
      button.setAttribute('disabled', true);
      button.setAttribute('aria-busy', true);
    }
    const onSuccess = (response) => {
      if (button) {
        button.textContent = i18n('button.restored');
        button.classList.add('success');
        button.removeAttribute('aria-busy');
        setTimeout(() => {
          button.removeAttribute('disabled');
          button.classList.remove('success', 'failed');
          button.textContent = defaultText;
        }, 5000);
      }
    };
    const onFailed = (response) => {
      if (button) {
        button.textContent = i18n('button.error');
        button.classList.add('failed');
        button.removeAttribute('aria-busy');
        setTimeout(() => {
          button.removeAttribute('disabled');
          button.classList.remove('success', 'failed');
          button.textContent = defaultText;
        }, 5000);
      }
    };
    const files = form.querySelector('#restore-file').files;
    if (files.length <= 0) {
      onFailed(false);
      return;
    }
    let reader = new FileReader();
    reader.readAsText(files[0]);
    reader.onload = async function () {
      try {
        let response = await fetch(url, {
          method: 'POST',
          cache: 'no-cache',
          headers: {
            'Content-Type': 'application/json'
          },
          body: reader.result
        });
        if (response.ok) {
          onSuccess(response);
        } else {
          onFailed(response);
        }
      } catch (err) {
        onFailed(false);
      }
    };
    reader.onerror = function () {
      console.log(reader.error);
    };
  });
 }
 function setupUpgradeForm(formSelector) {
  const form = document.querySelector(formSelector);
  if (!form) {
    return;
  }
  const url = form.action;
  let button = form.querySelector('button[type="submit"]');
  let defaultText;
  const statusToText = (status) => {
    switch (status) {
      case 0:
        return "None";
      case 1:
        return "No file";
      case 2:
        return "Success";
      case 3:
        return "Prohibited";
      case 4:
        return "Aborted";
      case 5:
        return "Error on start";
      case 6:
        return "Error on write";
      case 7:
        return "Error on finish";
      default:
        return "Unknown";
    }
  };
  const onResult = async (response) => {
    if (!response) {
      return;
    }
    const result = await response.json();
    let resItem = form.querySelector('.upgrade-firmware-result');
    if (resItem && result.firmware.status > 1) {
      resItem.textContent = statusToText(result.firmware.status);
      resItem.classList.remove('hidden');
      if (result.firmware.status == 2) {
        resItem.classList.remove('failed');
        resItem.classList.add('success');
      } else {
        resItem.classList.remove('success');
        resItem.classList.add('failed');
        if (result.firmware.error != "") {
          resItem.textContent += ": " + result.firmware.error;
        }
      }
    }
    resItem = form.querySelector('.upgrade-filesystem-result');
    if (resItem && result.filesystem.status > 1) {
      resItem.textContent = statusToText(result.filesystem.status);
      resItem.classList.remove('hidden');
      if (result.filesystem.status == 2) {
        resItem.classList.remove('failed');
        resItem.classList.add('success');
      } else {
        resItem.classList.remove('success');
        resItem.classList.add('failed');
        if (result.filesystem.error != "") {
          resItem.textContent += ": " + result.filesystem.error;
        }
      }
    }
  };
  const onSuccess = (response) => {
    onResult(response);
    if (button) {
      button.textContent = defaultText;
      button.removeAttribute('aria-busy');
      setTimeout(() => {
        button.removeAttribute('disabled');
        button.classList.remove('success', 'failed');
        button.textContent = defaultText;
      }, 5000);
    }
  };
  const onFailed = (response) => {
    if (button) {
      button.textContent = i18n('button.error');
      button.classList.add('failed');
      button.removeAttribute('aria-busy');
      setTimeout(() => {
        button.removeAttribute('disabled');
        button.classList.remove('success', 'failed');
        button.textContent = defaultText;
      }, 5000);
    }
  };
  form.addEventListener('submit', async (event) => {
    event.preventDefault();
    hide('.upgrade-firmware-result');
    hide('.upgrade-filesystem-result');
    if (button) {
      defaultText = button.textContent;
      button.textContent = i18n('button.uploading');
      button.setAttribute('disabled', true);
      button.setAttribute('aria-busy', true);
    }
    try {
      let fd = new FormData(form);
      let response = await fetch(url, {
        method: 'POST',
        cache: 'no-cache',
        body: fd
      });
      if (response.status >= 200 && response.status < 500) {
        onSuccess(response);
      } else {
        onFailed(response);
      }
    } catch (err) {
      onFailed(false);
    }
  });
 }
 function setBusy(busySelector, contentSelector, value) {
  if (!value) {
    hide(busySelector);
    show(contentSelector);
  } else {
    show(busySelector);
    hide(contentSelector);
  }
 }
 function setState(selector, value) {
  let item = document.querySelector(selector);
  if (!item) {
    return;
  }
  item.setAttribute('aria-invalid', !value);
 }
 function setValue(selector, value) {
  let items = document.querySelectorAll(selector);
  if (!items.length) {
    return;
  }
  for (let item of items) {
    item.innerHTML = value;
  }
 }
 function setCheckboxValue(selector, value) {
  let item = document.querySelector(selector);
  if (!item) {
    return;
  }
  item.checked = value;
 }
 function setRadioValue(selector, value) {
  let items = document.querySelectorAll(selector);
  if (!items.length) {
    return;
  }
  for (let item of items) {
    item.checked = item.value == value;
  }
 }
 function setInputValue(selector, value, attrs = {}) {
  let items = document.querySelectorAll(selector);
  if (!items.length) {
    return;
  }
  for (let item of items) {
    item.value = value;
    if (attrs instanceof Object) {
      for (let attrKey of Object.keys(attrs)) {
        item.setAttribute(attrKey, attrs[attrKey]);
      }
    }
  }
 }
 function setSelectValue(selector, value) {
  let item = document.querySelector(selector);
  if (!item) {
    return;
  }
  for (let option of item.options) {
    option.selected = option.value == value;
  }
 }
 function show(selector) {
  let items = document.querySelectorAll(selector);
  if (!items.length) {
    return;
  }
  for (let item of items) {
    if (item.classList.contains('hidden')) {
      item.classList.remove('hidden');
    }
  }
 }
 function hide(selector) {
  let items = document.querySelectorAll(selector);
  if (!items.length) {
    return;
  }
  for (let item of items) {
    if (!item.classList.contains('hidden')) {
      item.classList.add('hidden');
    }
  }
 }
 function unit2str(unitSystem, units = {}, defaultValue = '?') {
  return (unitSystem in units) 
    ? units[unitSystem] 
    : defaultValue;
 }
 function temperatureUnit(unitSystem) {
  return unit2str(unitSystem, {
    0: "°C",
    1: "°F"
  });
 }
 function pressureUnit(unitSystem) {
  return unit2str(unitSystem, {
    0: "bar",
    1: "psi"
  });
 }
 function volumeUnit(unitSystem) {
  return unit2str(unitSystem, {
    0: "L",
    1: "gal"
  });
 }
 function memberIdToVendor(memberId) {
  // https://github.com/Jeroen88/EasyOpenTherm/blob/main/src/EasyOpenTherm.h
  // https://github.com/Evgen2/SmartTherm/blob/v0.7/src/Web.cpp
  const vendorList = {
    1:    "Baxi",
    2:    "AWB/Brink/Viessmann",
    4:    "ATAG/Baxi/Brötje/ELCO/GEMINOX",
    5:    "Itho Daalderop",
    6:    "IDEAL",
    8:    "Buderus/Bosch/Hoval",
    9:    "Ferroli",
    11:   "Remeha/De Dietrich",
    16:   "Unical",
    24:   "Vaillant/Bulex",
    27:   "Baxi",
    29:   "Itho Daalderop",
    33:   "Viessmann",
    41:   "Italtherm/Radiant",
    56:   "Baxi",
    131:  "Nefit",
    148:  "Navien",
    173:  "Intergas",
    247:  "Baxi Ampera",
    248:  "Zota Lux-X"
  };
  return (memberId in vendorList) 
    ? vendorList[memberId] 
    : "unknown vendor";
 }
 function form2json(data, noCastItems = []) {
  let method = function (object, pair) {
    let keys = pair[0].replace(/\]/g, '').split('[');
    let key = keys[0];
    let value = pair[1];
    if (!noCastItems.includes(keys.join('.'))) {
      if (value === 'true' || value === 'false') {
        value = value === 'true';
      } else if (typeof (value) === 'string' && value.trim() !== '' && !isNaN(value)) {
        value = parseFloat(value);
      }
    }
    if (keys.length > 1) {
      let i, x, segment;
      let last = value;
      let type = isNaN(keys[1]) ? {} : [];
      value = segment = object[key] || type;
      for (i = 1; i < keys.length; i++) {
        x = keys[i];
        if (i == keys.length - 1) {
          if (Array.isArray(segment)) {
            segment.push(last);
          } else {
            segment[x] = last;
          }
        } else if (segment[x] == undefined) {
          segment[x] = isNaN(keys[i + 1]) ? {} : [];
        }
        segment = segment[x];
      }
    }
    object[key] = value;
    return object;
  }
  let object = Array.from(data).reduce(method, {});
  return JSON.stringify(object);
 }
 function dec2hex(i) {
  let hex = parseInt(i).toString(16);
  if (hex.length % 2 != 0) {
    hex = "0" + hex;
  }
  return hex.toUpperCase();
 }
@@ -1,68 +0,0 @@
 /*!
 *  Icons icon font. Generated by Iconly: https://iconly.io/
 */
@font-face {
  font-display: auto;
  font-family: "Icons";
  font-style: normal;
  font-weight: 400;
  src: url("/static/fonts/iconly.eot?1718563596894");
  src: url("/static/fonts/iconly.eot?#iefix") format("embedded-opentype"), url("/static/fonts/iconly.woff2?1718563596894") format("woff2"), url("/static/fonts/iconly.woff?1718563596894") format("woff"), url("/static/fonts/iconly.ttf?1718563596894") format("truetype"), url("/static/fonts/iconly.svg?1718563596894#Icons") format("svg");
 }
 [class="icons"], [class^="icons-"], [class*=" icons-"] {
  display: inline-block;
  font-family: "Icons" !important;
  font-weight: 400;
  font-style: normal;
  font-variant: normal;
  text-rendering: auto;
  line-height: 1;
  -moz-osx-font-smoothing: grayscale;
  -webkit-font-smoothing: antialiased;
 }
 .icons-plus:before {
  content: "\e000";
 }
 .icons-minus:before {
  content: "\e001";
 }
 .icons-unlocked:before {
  content: "\e002";
 }
 .icons-locked:before {
  content: "\e003";
 }
 .icons-wifi-strength-1:before {
  content: "\e004";
 }
 .icons-wifi-strength-0:before {
  content: "\e005";
 }
 .icons-wifi-strength-2:before {
  content: "\e006";
 }
 .icons-wifi-strength-3:before {
  content: "\e008";
 }
 .icons-down:before {
  content: "\e009";
 }
 .icons-wifi-strength-4:before {
  content: "\e00a";
 }
 .icons-up:before {
  content: "\e00c";
 }
@@ -59,7 +59,7 @@ footer {
 /*nav li a:has(> div.logo) {
  margin-bottom: 0;
 }*/
-nav li :where(a,[role=link]) {
+nav li :where(a, [role=link]) {
  margin: 0;
 }
@@ -71,6 +71,11 @@ pre {
  padding: 0.5rem;
 }
 :nth-last-child(1 of table tr:not(.hidden)) th,
 :nth-last-child(1 of table tr:not(.hidden)) td {
  border-bottom: 0 !important;
 }
 .hidden {
  display: none !important;
@@ -86,11 +91,6 @@ button.failed {
  border-color: var(--pico-form-element-invalid-border-color);
 }
 tr.network:hover {
  --pico-background-color: var(--pico-primary-focus);
  cursor: pointer;
 }
 .primary {
  border: 0.25rem solid var(--pico-form-element-invalid-border-color);
  padding: 1rem;
@@ -110,94 +110,8 @@ tr.network:hover {
  font-family: var(--pico-font-family-monospace);
 }
-.thermostat {
+.powered-by {
-  display: grid;
+  margin: 2rem 0 0 0;
-  grid-template-columns: 0.5fr 2fr 0.5fr;
+  text-align: center;
-  grid-template-rows: 0.25fr 1fr 0.25fr;
+  opacity: 0.5;
  gap: 0px 0px;
  grid-auto-flow: row;
  justify-content: center;
  justify-items: center;
  grid-template-areas:
    ". thermostat-header ."
    "thermostat-minus thermostat-temp thermostat-plus"
    "thermostat-control thermostat-control thermostat-control";
  border: .25rem solid var(--pico-blockquote-border-color);
  padding: 0.5rem;
 }
 .thermostat-header {
  justify-self: center;
  align-self: end;
  grid-area: thermostat-header;
  font-size: 1rem;
  font-weight: bold;
  border-bottom: .25rem solid var(--pico-primary-hover-border);
  margin: 0 0 1rem 0;
 }
 .thermostat-temp {
  display: grid;
  grid-template-columns: 1fr;
  grid-template-rows: 1fr 0.5fr;
  gap: 0px 0px;
  grid-auto-flow: row;
  grid-template-areas:
    "thermostat-temp-target"
    "thermostat-temp-current";
  grid-area: thermostat-temp;
 }
 .thermostat-temp-target {
  justify-self: center;
  align-self: center;
  grid-area: thermostat-temp-target;
  font-weight: bold;
  font-size: 1.75rem;
 }
 .thermostat-temp-current {
  justify-self: center;
  align-self: start;
  grid-area: thermostat-temp-current;
  color: var(--pico-secondary);
  font-size: 0.85rem;
 }
 .thermostat-minus {
  justify-self: end;
  align-self: center;
  grid-area: thermostat-minus;
 }
 .thermostat-plus {
  justify-self: start;
  align-self: center;
  grid-area: thermostat-plus;
 }
 .thermostat-control {
  justify-self: center;
  align-self: start;
  grid-area: thermostat-control;
  margin: 1.25rem 0;
 }
 [class*=" icons-"],
 [class=icons],
 [class^=icons-] {
  font-size: 1.35rem;
 }
 *:has(> [class*=" icons-"], > [class=icons], > [class^=icons-]):has(+ * > [class*=" icons-"], + * > [class=icons], + * > [class^=icons-]) {
  margin: 0 0.5rem 0 0;
 }
 [data-tooltip]:has(> [class*=" icons-"], > [class=icons], > [class^=icons-]) {
  border: 0 !important;
 }
@@ -1,62 +0,0 @@
 import shutil
 import gzip
 import os
 Import("env")
 def post_build(source, target, env):
  copy_to_build_dir({
    source[0].get_abspath():                          "firmware_%s_%s.bin" % (env["PIOENV"], env.GetProjectOption("version")),
    env.subst("$BUILD_DIR/${PROGNAME}.factory.bin"):  "firmware_%s_%s.factory.bin" % (env["PIOENV"], env.GetProjectOption("version")),
    env.subst("$BUILD_DIR/${PROGNAME}.elf"):          "firmware_%s_%s.elf" % (env["PIOENV"], env.GetProjectOption("version"))
  }, os.path.join(env["PROJECT_DIR"], "build"));
  env.Execute("pio run --target buildfs --environment %s" % env["PIOENV"]);
 def before_buildfs(source, target, env):
  env.Execute("npm install --silent")
  env.Execute("npx gulp build_all --no-deprecation")
 """
  src = os.path.join(env["PROJECT_DIR"], "src_data")
  dst = os.path.join(env["PROJECT_DIR"], "data")
  for root, dirs, files in os.walk(src, topdown=False):
    for name in files:
      src_path = os.path.join(root, name)
      with open(src_path, 'rb') as f_in:
          dst_name = name + ".gz"
          dst_path = os.path.join(dst, os.path.relpath(root, src), dst_name)
          if os.path.exists(os.path.join(dst, os.path.relpath(root, src))) == False:
            os.mkdir(os.path.join(dst, os.path.relpath(root, src)))
          with gzip.open(dst_path, 'wb', 9) as f_out:
            shutil.copyfileobj(f_in, f_out)
          print("Compressed '%s' to '%s'" % (src_path, dst_path))
 """
 def after_buildfs(source, target, env):
  copy_to_build_dir({
    source[0].get_abspath(): "filesystem_%s_%s.bin" % (env["PIOENV"], env.GetProjectOption("version")),
  }, os.path.join(env["PROJECT_DIR"], "build"));
 def copy_to_build_dir(files, build_dir):
  if os.path.exists(build_dir) == False:
    return
  for src in files:
    if os.path.exists(src):
      dst = os.path.join(build_dir, files[src])
      print("Copying '%s' to '%s'" % (src, dst))
      shutil.copy(src, dst)
 env.AddPostAction("buildprog", post_build)
 env.AddPreAction("$BUILD_DIR/spiffs.bin", before_buildfs)
 env.AddPreAction("$BUILD_DIR/littlefs.bin", before_buildfs)
 env.AddPostAction("buildfs", after_buildfs)
@@ -1,79 +0,0 @@
 # Source: https://raw.githubusercontent.com/letscontrolit/ESPEasy/mega/tools/pio/post_esp32.py
 # Part of ESPEasy build toolchain.
 #
 # Combines separate bin files with their respective offsets into a single file
 # This single file must then be flashed to an ESP32 node with 0 offset.
 #
 # Original implementation: Bartłomiej Zimoń (@uzi18)
 # Maintainer: Gijs Noorlander (@TD-er)
 #
 # Special thanks to @Jason2866 (Tasmota) for helping debug flashing to >4MB flash
 # Thanks @jesserockz (esphome) for adapting to use esptool.py with merge_bin
 #
 # Typical layout of the generated file:
 #    Offset | File
 # -  0x1000 | ~\.platformio\packages\framework-arduinoespressif32\tools\sdk\esp32\bin\bootloader_dout_40m.bin
 # -  0x8000 | ~\ESPEasy\.pio\build\<env name>\partitions.bin
 # -  0xe000 | ~\.platformio\packages\framework-arduinoespressif32\tools\partitions\boot_app0.bin
 # - 0x10000 | ~\ESPEasy\.pio\build\<env name>/<built binary>.bin
 Import("env")
 platform = env.PioPlatform()
 import sys
 from os.path import join
 sys.path.append(join(platform.get_package_dir("tool-esptoolpy")))
 import esptool
 def esp32_create_combined_bin(source, target, env):
    print("Generating combined binary for serial flashing")
    # The offset from begin of the file where the app0 partition starts
    # This is defined in the partition .csv file
    app_offset = 0x10000
    new_file_name = env.subst("$BUILD_DIR/${PROGNAME}.factory.bin")
    sections = env.subst(env.get("FLASH_EXTRA_IMAGES"))
    firmware_name = env.subst("$BUILD_DIR/${PROGNAME}.bin")
    chip = env.get("BOARD_MCU")
    flash_size = env.BoardConfig().get("upload.flash_size")
    flash_freq = env.BoardConfig().get("build.f_flash", '40m')
    flash_freq = flash_freq.replace('000000L', 'm')
    flash_mode = env.BoardConfig().get("build.flash_mode", "dio")
    memory_type = env.BoardConfig().get("build.arduino.memory_type", "qio_qspi")
    if flash_mode == "qio" or flash_mode == "qout":
        flash_mode = "dio"
    if memory_type == "opi_opi" or memory_type == "opi_qspi":
        flash_mode = "dout"
    cmd = [
        "--chip",
        chip,
        "merge_bin",
        "-o",
        new_file_name,
        "--flash_mode",
        flash_mode,
        "--flash_freq",
        flash_freq,
        "--flash_size",
        flash_size,
    ]
    print("    Offset | File")
    for section in sections:
        sect_adr, sect_file = section.split(" ", 1)
        print(f" -  {sect_adr} | {sect_file}")
        cmd += [sect_adr, sect_file]
    print(f" - {hex(app_offset)} | {firmware_name}")
    cmd += [hex(app_offset), firmware_name]
    print('Using esptool.py arguments: %s' % ' '.join(cmd))
    esptool.main(cmd)
 env.AddPostAction("$BUILD_DIR/${PROGNAME}.bin", esp32_create_combined_bin)
Author	SHA1	Message	Date
Yurii	de7c178bf1	refactor: added ``no-cache``	2025-01-07 07:36:57 +03:00
Yurii	4c42c148f8	Added web flasher	2025-01-07 06:50:06 +03:00
Yurii	ee15abe429	Initial commit	2025-01-07 06:47:54 +03:00
		`@@ -1 +0,0 @@`
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